The Secret of Skinwalker Ranch (2020) s04e11 Episode Script
In the Heat of the Night
Holy cow.
- What? What?
We've got a clear anomaly
right outside the aircraft.
There's something in the sky
above the rocket.
Yeah, look at that.
- No way.
That's only 30 feet above us.
- My God.
Yeah, they're going--
they're going-- running
into each other!
- Well, that one just hit.
Right about that 31-foot mark.
It looked like
the border went off
as the rocket
was flying through it.
There is a
ranch in Northern Utah.
It is considered the epicenter
of the strangest and most
disturbing phenomena on Earth:
animal mutilations,
bizarre UFO sightings
and unusual energies that have
proven harmful to humans.
For 20 years,
the federal government
tried to find answers
and failed.
Now a new team
of dedicated scientists,
researchers and experts
has taken over.
They are determined to solve
the mystery and reveal
The Secret
of Skinwalker Ranch.
I know some of these guys.
Hey, there.
- Bring it in right here, man.
How you doing? Haven't seen you
in forever, man.
Appreciate you guys coming out.
We got a lot of stuff
planned for this evening.
We've seen more
phenomena this year
than ever before
all across Skinwalker Ranch.
Best way to describe
what we're gonna do tonight
is a multiphysics experiment
over the triangle.
One place that we now believe
could be a possible source
for a lot of those anomalies
is a spot in the middle
of the property
that we call the triangle.
Do you see this?
- Yeah!
Wow!
It's moving way too fast
for it to be a satellite.
We've not only seen UAPs
above it
that suddenly vanished
into thin air
And gone. That's insane.
but during a recent
radar balloon experiment
These are huge anomalies.
You now have
actual data telling us
there's a quarter of a second
time anomaly over the ranch.
Are we seeing
evidence of a portal?
at an altitude
of about 10,000 feet,
we actually recorded
multiple time shifts
of a quarter of a second
that, according to Einstein's
theory of general relativity,
could be evidence
of a gravitational effect
on time itself
that would be seen
around things like black holes
or even traversable wormholes.
Nobody's ever measured
any anomaly
like that on the planet.
Exactly.
But the craziest thing
we've witnessed
happened two months ago,
when something that looked
like a cloudy blob
caused a rocket to explode
above the triangle
just 31 feet in air.
There is literally something--
We may be looking at the anomaly
for the first time, guys.
So, to figure out
just what the heck the blob is,
we invited pyrotechnic expert
Nathan Whitehead,
along with my friend
Cameron Prince,
an electromechanical engineer,
to help us poke the spot
31 feet above the triangle
harder than ever before.
So, tell us a little bit
about what you brought,
and all that kind of stuff.
What I brought with me
is a-a flamethrower.
We're gonna shoot out
110, 120 feet of fire.
Wow.
Wow. So how hot,
is this gonna be burning
When-when, when the flame's
being projected?
Yeah, it's almost 2,000 degrees.
Wow.
- Yeah, so it's-it's pretty hot.
Cameron, did you bring,
a Tesla coil?
You know me.
I got the lightning.
All right, good.
I've got two different cameras
with different things
that we can do with those
to see what kind of anomalies
that we can catch. - Yeah,
and there will be plenty of heat and light,
for your cameras to be
illuminated at night. - Yeah.
Plenty.
- David, you brought
several different cameras,
right?
For-for infrared
and thermal imaging, right?
- Right.
Well, I know that Thomas
and our fire marshal
Don Mitchell
are down in the triangle
setting up everything otherwise.
Well, hey, look,
we're burning daylight.
Yeah, I'm excited to show y'all.
- Awesome.
Once the sun goes down,
using mechanical lifts,
we'll raise Cameron Prince
to that spot where he'll use
a handheld Tesla coil
to project more than 600 volts
of electricity through it
to see if that causes
the phenomenon to appear.
Yeah, check this out, guys.
And if that doesn't
work, Nathan Whitehead will also
be lifted to the 31-foot zone,
so he can literally fire
2,000-degree flames
through that anomaly.
We're gonna shoot
about 110 feet with this thing.
Boy.
All right,
everybody follow me out.
Let's be honest about this.
Almost every experiment
that we have performed to date
out here at the triangle
has produced
some kind of exceptional,
even anomalous result.
With this experiment,
we are hopeful
and even optimistic that we'll
have the opportunity to see
the anomaly over the triangle
as has never been seen before.
Here we are.
All right.
You guys got a lot of it
already set up.
Yeah, we're halfway there.
For tonight's experiment,
Burdette Anderson
will be recording
with his high-speed cameras,
which take
5,000 frames per second.
And technologist David Mason
will also be filming
the experiment
with his high-resolution
thermal FLIR cameras
that can visualize
anything with an anomalous
heat signature
that the naked eye can't see.
Everybody start getting set up,
do whatever you got to do.
If anything affects
the shape of the flames
or if the blob itself
appears again from
the electricity stimulation,
hopefully tonight,
we'll finally be able
to figure out
what in the world it really is.
All right, great, I think
we got this station set up.
Yeah, looks good.
You ready over there, Travis?
Yeah, man, I am.
Even though we were eager to see
what would happen
when the Tesla gun
and the flamethrower
were used at the triangle,
in all of our previous
experiments there,
we've had great success
stimulating phenomena
to occur by launching rockets.
So to be consistent,
Erik and I decided that's
the best way to start tonight.
Burdette,
are you set up?
- I'm ready to go,
I'm ready to trigger
when you guys are ready
to fire that rocket.
After all,
that's what we believe
originally triggered the blob
to appear at the 31-foot level
earlier this year.
What we're planning to do now--
certainly, if there's something
at 30, 40 feet above
the center of the triangle,
we're gonna get its attention.
- Let's go do it.
All right, Dragon, let's go get it set up.
- All right.
During this
observational exercise,
we will be monitoring
any response that we get
from the anomaly
using our standard kit,
including
the spectrum analyzers,
our TriField meters, of course.
We also have
our GPS loggers
that allow us to determine
whether anything unusual
may be happening
with space-time itself.
Of course we'll be watching
from the ground.
All right, let's do it.
I don't know
what's going to happen.
I don't think anyone does.
Cameras ready!
Burdette, you good?
- Good.
You guys ready to roll?
We're ready to roll.
- David, you good?
We're ready.
Three, two, one.
Did you get that, Burdette?
- Yeah.
Hey, guys,
you should take a look at this.
You're gonna want to see this.
- Yeah?
Look at that.
There is our 31-foot mark.
Takes a distinct turn right
into it, and, like, around it.
That's right where
it exploded last time.
Exactly right there,
it exploded.
How about that?
At the exact same height.
And then,
as soon as we get up at about 75, 80 feet,
it starts going straight again,
right there.
It's crazy.
Did you see that?
- Yeah.
We do not have a
good explanation for this.
That-that defies rocket science.
That is not what that was
supposed to do.
You know,
seeing this makes me want
to get that Tesla coil up there,
because if there's
something there
Yeah. -
who knows what we'll see.
Let's do it.
Let's get on with it.
After the bizarre diversion
of the rocket's trajectory,
we immediately wanted
to get Cameron Prince
lifted to the 31-foot-level
so he could shoot electricity
from his Tesla gun
through that zone
to see if we could get
the anomaly to appear.
Cameron, you ready?
- I'm ready.
All right, well,
let's go start loading up.
We are going to
transmit electrical energy
into the air with a Tesla coil.
A Tesla coil is an air core
transformer that creates
a very high-frequency,
high-voltage current
that produces these
lightning-like discharges.
All right,
so we're gonna start raising up.
The idea is to see if this can
somehow provoke or illuminate,
make visible this phenomenon.
Are you ready to fire?
Yes, we are. Are you ready?
All right, I'm gonna count down.
Three, two, one.
Wow.
That's bright.
Beam looks pretty
well-behaved right now.
Yeah.
That's what I was thinking, too.
Ready to come down?
Yeah, I think so.
After something
that we couldn't see
diverted a rocket just
31 feet above the triangle,
we were hoping
that Cameron Prince
could get whatever it was
to appear by pumping
over 600 volts of electricity
into that zone.
Well, did, you guys
see the arcs and stuff
on the high-speed and?
Yeah, I got some color arcs
on the high-speed.
Yeah? Didn't see any
anomalies or anything? - No.
Well, maybe when
we go back in, we look through
all this together and take more
time to go through each frame
or whatever,
we might see more to it.
Sounds good.
Let's reset for the flamethrower.
I'm ready to go,
everything's downloaded.
All right.
Nothing obviously strange
happened at the 31-foot level
above the triangle
during the Tesla gun operation.
You can hold
that up if you want.
But even still,
the anticipation
of shooting a massive flame
right through the blob zone
was pretty intense.
And we were all on edge.
That's 31 feet.
I'm ready-- I'm rolling
and ready to trigger.
All right, Bryant,
I'm gonna give you
a countdown from five.
On five,
- Five,
four, three,
- four, three,
two, one.
- two,
one.
Wow.
You can feel it.
- Look at-- Look at that.
Whoa, wow. Wow.
Nice. That's incredible.
Perfect, Nathan.
I have something that might
look a little strange.
What? What?
- Okay, well, let me call the guys over
and we'll take a look together.
What are you guys seeing?
I see Look at this one.
Burdette, frame back
on this one a little bit
and frame through it a
Okay.
Yeah, there's-there's,
there's clearly some empty spots.
I'll tell you
guys, we've, you know,
seen a lot of, a lot of footage
of out-our flames shooting out,
and it's not typical
that we have this separation.
Really?
- Yeah, that's correct.
Yeah, what
- That's-that's not typical at all.
Why is it horseshoeing?
- It's like
it's hitting something
or something's
there's an air current there
or something.
Yeah, I'm not sure.
- Something that's
it seems to be going around it.
It was great that we
had Burdette's camera system,
because even though
we didn't see in the moment,
when we played the high-speed
camera shots back,
something at the 31-foot level
literally split the flame
from Nathan's device in two.
It's almost like
when it hits this point,
it stops and it hits--
it-it runs into something
and it has to curl back 'cause it
still has that - Yeah.
that inertia,
it still has the momentum,
so it has to go back
the other way.
This is unusual.
- Yeah, it was a really--
it was a very unusual night.
This experiment gave
us incredible correlating data
that something strange
that diverts physical objects
does exist at the 31-foot level.
Was it the blob?
Was it evidence of a portal?
Well, I'm not certain
about any of that,
but we do have a lot
of recorded data to review,
and maybe it'll help us
figure it out.
It's becoming repeatable
that when we launch rockets
from this spot,
that we are getting a
you know, the strange m
maneuver with the rocket,
when it gets to about
30 to 40 feet up there.
And it's s-- happening almost,
I would say,
more times than not,
which is a statistical
weird thing, right?
And then, seeing the-the flames
do the weird things
- Yeah.
Both of them,
in two different times,
we saw these strange
vortices occur.
Yeah, like
there were voids in them
or they, or they break apart
and separate themselves.
So, I-- you know, I-I don't know
what to make of that.
Well, and I'll tell you,
I-I'm looking forward
to being able to sit down
at the command center here
in a day or two
and-and review the footage
and-and s--
and look at it closer.
I think we've
accomplished everything
we can do tonight, though, so
Yeah. - I'm all
for calling it a day.
Yeah, and we got
a lot of equipment to pack up.
I say we-we load up everything
and call it a night,
what do you think?
I second that. Yep.
Let's get out of here.
Thanks, everyone.
- All right, let's do it.
I've got some
high-speed camera footage.
Yeah.
So I want to bring this up
to the screen
for us to look at
how that rocket actually moved.
This is coming up out
of the center of the triangle.
Yeah.
- And suddenly
Suddenly something turns it.
Right there.
- Huh. Right there.
And we-- and we're
still scratching our heads
as to-- in response to what,
is this thing
changing directionally?
- Right.
That was the rocket launch,
and I have some
high-speed footage
of the flamethrower exercise.
- Yeah.
And if you see a feature
that you want to point out,
just stop me.
Okay, so here we see
- Wow.
Look at that thing.
Well,
that looks exactly like you'd expect.
The liquid is being tossed out
on a ballistic trajectory.
Right? It's gonna go out on a
curve
just like you threw a baseball,
but it's a liquid.
Now, that's interesting how
you're getting this separation.
And look at the curve--
the curve that's forming there.
Why did it do that
all of a sudden?
What's pushing
the flame downwards?
I'm not trying
to debunk it, saying
there's not something there
making the fire go around it.
Sure. - But it looks
more like what happened
is you burned out
all the oxygen of that spot
and you created a pocket that
forced the fire, below it.
It's basically the same reason,
weather systems push
against each other--
a high-pressure
and a low-pressure system,
warm front, cold front
pushing it--
but that's why you get
the little vortices,
you get tornadoes and stuff.
- So we're depleting the oxygen
in that dark zone?
Is that what you're saying?
- That's what I'm thinking it is now,
when-- watching it form.
As objective scientists,
Erik and I have to first look
for mundane explanations
for strange things that happen
out here on the ranch.
Now, it could be that the flames
being shot into the triangle
were split by oxygen
being burned up,
causing parts of them
to extinguish.
However, I think that hypothesis
is inconclusive at this point,
given that it occurred
at the 31-foot level.
Now, this same event
is captured in the, um
near infrared.
- Really?
Yeah, and so I have that record.
Here we go.
- There we go.
Okay.
That's fantastic, right there.
Hey, back up, back up, back up.
What is that?
Okay.
So I'll play it through
at the negative rate
and you can stop-- stop me
Wait, wait. Stop.
Wait-- R-Right here, look.
Yeah, I was seeing
those same things. - Right there.
I think you see one-- it-it kind of veers.
- Okay.
And it's not
connected to the flame.
Look, it's below the flame.
Okay, I'm
- You see it moving?
I'm gonna go backwards.
- And I saw it right there.
Yeah, no, it, it is moving up.
Okay, I'm going backwards.
You know what? There it is.
- Oop, there it is.
There it is, there it is.
In the frame.
It is in this. Look, right here.
Yes, yes, yes, yes.
Now it's gone.
- It's gone.
What the hell is that?
Well, that's strange.
Well, you see it go through.
Right here,
there is something here.
Yes.
- Wow.
It's, like,
flashing or strobing, too.
Yeah.
- Huh.
Right there.
- Yeah, I'm tracking it.
The high-speed footage
from last night's energy
experiment at the triangle
is truly incredible.
We recorded evidence
of a white orb-like UAP
right where the flames
that we shot
into the 31-foot-high blob zone
were split in two.
I can see it.
Now it's in the plume.
Well, I don't see it now.
Well, look,
there was clearly a thing
probably, you know,
50, 60 feet up
comes down and-and we see it
kind of vanish
somewhere around 30 feet.
So that moves 30 feet
in less than a second.
So it's moving fairly fast.
It reminds me of when you guys
were out there with the rocket
that blew up.
Something very similar
showed up.
Yep.
- This could be
a very similar phenomena.
Dragon was right.
When we first
captured images of the blob
that made our rocket explode
earlier this year,
we also saw a UAP
in our high-speed camera data
that looks just like this one
that we documented last night.
We're talking about
something showing up
right there
at that 30 to 35-foot level
where we've had so many other
things show up or-or, frankly,
things interacting with our rockets.
- Yeah.
There's something physical
going on there.
Absolutely.
We caught multiple UAPs emerging
and then disappearing
back into the blob zone
at the 31-foot level
above the triangle.
Where were they coming from,
and then, where did they go?
Was this more evidence
that supports the legends
about portals on the ranch
we've heard for years?
And could it be related
to the time anomalies
we documented two weeks ago?
We got enough evidence now
that says
there's something there,
and almost every time
we do a test,
we find some other little nuance
that we didn't realize was there
at the triangle.
And it was clear that we needed
more advanced technology
than ever before
to figure it out.
Well, one thing's for sure,
we're not done probing that space.
- Nope.
Well,
thanks for the review, guys.
How was the drive? Good, how are you?
- How we doing, sir?
I didn't know you was
bringing a whole baseball team.
So, after consulting
with Jay Stratton,
who not only served
as the director
of the federal government's
UAP task force
but also helped
investigate Skinwalker Ranch
back in the early 2000s,
he came back
with representatives
from a company known as OmniTeq,
including CEO Jim Royston,
who has over 20 years
of experience in the aerospace
and defense industry.
Thanks, you guys.
Thanks for coming.
These guys specialize
in data collection using
all kinds of high-tech equipment
on projects for
the Department of Defense, NASA
and other sensitive
government programs.
You guys remember Jay,
of course.
The OmniTeq team
brings us new opportunities
to really understand some of
this phenomenon on the ranch.
We're talking military
intelligence community-capable,
very expensive hardware
that's not readily accessible
to anyone else.
Really appreciate
the opportunity to come out.
From our A-team, I would say,
from the company here,
we have Shane Frazier,
communication specialist;
we have Sam Deriso,
who is former Navy
nuke and electronic warfare;
and then we have our CTO,
which is Tony Jamison,
former Naval Intelligence,
and also,
I'd say, data collection
and AI/ML specialist, also.
So, that's the team. - That's
impressive résumés right there.
Yep.
- One of the cool things,
a-and key things that Jay and I
have talked about
is these guys have backgrounds
in looking for signals
that are being hidden
or spoofed or jammed,
or electronic warfare,
and figuring out
what the useful information is.
And all of that is pertinent
to what's happening to us
out here at the ranch.
Yep. - So,
what we want to do this afternoon
is set up antennas
on the triangle, looking up,
that will receive signals from
the International Space Station
as it passes over the ranch.
Okay.
- Let's get to work.
Yeah, sounds good.
- Okay, guys. Thank you.
Just like many satellites,
as the International Space
station orbits the planet,
it constantly sends a strong
radio signal back down to Earth.
So we're gonna use
high-powered antennas
to lock onto that signal
and track it
through the anomalous zone
as the space station
passes over the ranch
this afternoon.
Meanwhile, Jim Royston
is going to be flying
an advanced drone-based
lidar device
that will be scanning
through the anomalous zone
above the triangle
with infrared lasers.
So, if something strange--
like the blob--
or some other phenomenon
breaks our connection
with the space station's signal,
Well, let's test this.
- we're hoping
that the lidar
will be able to see it
and help us identify
just what in the heck it is.
We'll fire it up.
- All right, so, this is gonna start
tracking the space station,
right, Sam? - Right.
With all this
advanced technology,
hopefully,
by the end of the day,
we'll finally get
some answers about the triangle
and all the phenomena that
we keep experiencing there.
So, I've tracked
the station before.
Yeah.
- This pass, what's it gonna be?
About a seven
or eight-minute track?
It's gonna be fairly short.
Actually, we acquire
the signal at 5:51
and we lose it at 5:59.
So we've got eight minutes.
- Eight minutes.
Erik, you keep talking about
having billion-dollar
experiments.
My last count,
the space station would cost
something like
$70 billion, right?
Yeah. There you go.
This is another one.
- This is a big experiment.
Yep.
So, we start to pick up the signal
in about three minutes.
- Three minutes!
All right, we're green.
So, yeah,
we'll just be ready to go.
Space station, start tracking.
All right.
Any second now, any second now.
There it is.
Tracking the space station now.
It's got it locked on?
- Yep.
So, right here.
- There you go, Erik.
Erik's got it
on his spectrum analyzer, too.
We need to get the drone
up in the air right now.
Home point updated.
Check map to confirm.
So strange.
There was just
a big GPS data change.
Really?
It won't connect.
Okay,
so we just lost the space station.
Um
Are you getting it?
- No, it's not showing up right now.
When it got overhead,
we actually lost the signal.
That's odd, isn't it?
- You see this?
There you go, Erik.
Erik's got it.
See these bumps?
That's the signal
being broadcast
from the space station.
What just happened?
Your system just went
completely away?
Right when the ISS was
over the triangle?
You got power.
Yeah, I've got light.
And it won't reboot, Erik?
- No.
We had our experiment
with the team from OmniTeq
timed perfectly to connect
their antennas on the ranch
with the International
Space Station
as it traveled over the property
to try and identify anomalies
above the triangle.
The connection should have
lasted for almost ten minutes
as the space station
flew over the ranch,
but after only about a minute,
the connection
was inexplicably lost.
And at that exact moment,
Erik's and my computer systems
completely shut down.
That's two major anomalies,
as far as I'm concerned.
Hey, Travis.
On that space station?
Yeah?
- We just had a big GPS change.
Right now, it just did that?
- Just did that.
It's all our GPS
correction data.
So the base station
thinks it's moving around?
Yeah. Just out of the blue.
Which, that's-that's
the first we've seen.
I can't--
it won't even take off,
My goodness.
It's incredible.
So to fly,
we might need to reboot that.
Do what you got to do.
- Yeah.
Having these experts out here
and seeing them have the same
type of equipment malfunctions
that others have had?
This is the highest tech
equipment there is,
and they are puzzled
beyond belief.
Travis, we've got
something strong.
You have something?
What frequency?
So, well, it's at 1.6510.
No kidding.
- Really?
Straight up?
- But it's-- Straight up.
Straight up and it's strong.
- But it's-it's a constant signal.
When Tony detected the signal
at a frequency of 1.6 gigahertz,
Erik and I were stunned.
That's the signal we've been
detecting above the triangle
for the past four years.
Especially when we've seen
phenomena like UAPs appear.
I-Is it meandering?
- No.
It's like a beacon.
Because human
technology does not
generally emit radio signals
at that specific frequency,
Erik and I have been baffled
by what or who
could be sending
this 1.6-gigahertz signal,
and also, where in the heck
it was coming from.
Especially since
we've often detected it
here above the triangle.
There it is.
That's the space station
right there.
It's starting to show up
stronger and stronger,
right there.
- Are you serious?
The funny thing is,
when it got overhead,
we actually lost the signal,
and now that it's past us
and it's, like, gone
Almost over the horizon to the south.
- Almost.
We picked it up again
and it's stronger now
after it's past us.
This was exciting.
So, OmniTeq lost
their connection
with the International
Space Station
as it passed over the triangle.
But then, once it moved
beyond that point,
it mysteriously reconnected
with their antennas,
suggesting that
there was something
floating above us
and blocking the signal.
All right, so, a lot of stuff
just went on here
with all of our different
instruments and everything,
so let's kind of recap
and understand exactly
what just happened.
We caught the ISS,
International Space Station,
right as it came over
the horizon.
And then when it gets
straight overhead,
we lost the signal
for whatever reason.
Yeah. - Right,
when it's over the anomaly.
Then as the station tracks over,
we detect it again
and see it real strong
as it goes over the horizon.
- That's right.
Your drone couldn't connect
to the GPS signals, right?
Yeah, it shut down.
And then, Erik, what happened to yours?
- I had a total system crash.
A total system crash?
Yeah, the whole, the whole
RF spectrum analyzer went down.
So, l-look,
at that, at that instant,
we had so many different
malfunctions,
and then, just following that,
we saw a signal
at 1.651 gigahertz.
Yes.
- So what this tells me,
now, is if there is something
going on right there now--
'cause we're having
this problem-- I want to launch
a rocket through it.
- Let's do it.
All right. Are you gonna be able
to get the lidar drone up? - Yep.
You think it's working now?
- It is right now.
Let's go.
Even though we lost
our ability to connect
with the International
Space Station,
when Jim said the lidar device
was finally operational,
I immediately wanted
to launch a rocket
up through the triangle while
he scanned the anomalous zone.
Check that out, Erik.
Real-time lidar point cloud.
That is impressive.
- That's amazing.
My hope was
that we could stimulate
whatever may have crashed
all of our systems
to appear in the lidar, so then,
we could determine
what the heck it was.
You hot over there?
Yep, we're hot there.
So,
get rea-- everybody in position
for rocket launches.
- Okay.
Launch in five,
four, three, two,
one.
Dude, that's a beautiful launch.
We caught it.
It was amazing.
- Really?
So, I'll show you.
I thought we would see
just a tight little line
going up as the rocket.
It dispersed all the points
out really wide.
Meaning that the lidar points
around it moved out of the way?
Yeah.
What?
Wow. This was insane.
As the rocket ascended up
through the triangle,
according to the lidar,
it passed right through
something that dispersed
and split the lidar beam into
multiple wave-like patterns.
Once again, we have evidence
that there is
something invisible
in this anomalous zone.
Holy smokes.
That might be the blob.
Do you know what elevation
you were looking at
when you saw the dispersion?
- Yeah, so,
we were seeing it probably about
20 feet off the top there.
Would that be about 30 feet
above ground level? - Maybe 30
Yeah. - Just
after something crashed
all our computer systems
at the triangle,
we launched a rocket up
through the anomalous zone.
And at about 30 feet high,
where we saw the blob
appear earlier this year,
OmniTeq's lidar scanner
showed that it penetrated
an invisible object
that caused the lidar data
to ripple like waves of water.
Was it the blob?
And if so,
what could that actually be?
Wow.
- That is so in line
with what we've seen.
Yeah, at 30 feet.
At-at 30 feet, that's crazy.
So we need
to reproduce that, then.
You try to get the drone
right where you had it last time
for this second launch.
Copy that.
- Yep, we're ready to roll.
You guys ready?
- All right, we're ready to roll here,
so you get in position.
- All right.
All right, well,
let's do this next one.
We've gotten such
interesting results
out of this first rocket launch
that I want to do it again.
Repeatability is an important
part of what we do out here.
We must launch
a rocket immediately.
Here we go,
rocket's ready to go.
All right, we're hot.
Rocket's going up in five,
four, three,
two, one.
So, I'm not seeing anything.
It didn't happen that time.
- I didn't see anything. - I don't see it.
Nope, it didn't happen that time.
- I don't see it.
We didn't see anything.
I saw none of that effect
this time.
Really?
- Yeah.
Travis, we didn't
even pick it up.
There's no lidar.
- Like something blocked it right out.
Blocked it right out?
What do you mean?
We didn't pick
up that launch. - Really?
Yeah.
It's nothing.
- Nothing.
What?
How could OmniTeq's lidar
not see the rocket at all
as it ascended through the
31-foot zone above the triangle?
This was a state-of-the-art
technology.
It didn't make sense,
unless whatever caused
the ripples in the data
with the first rocket
actually cloaked or completely
masked the second one.
You might really want
to get back over there
to the command center and review
the high-resolution lidar data.
Absolutely. Let's get over
there and take a look at it.
All right.
- Yeah.
Hey, how we doing?
Well, you know, as we're just talking,
I'm sitting here
in total suspense to see
what you've got
from all of the lidar data.
After the experiment,
Jim Royston and his colleagues
from OmniTeq
spent several hours
processing their lidar data
to much higher resolution.
So we couldn't wait
to see if that data
would reveal just
what caused the anomaly
that we witnessed
31 feet above the triangle.
You want to lead us into it?
Absolutely. So
you know, obviously,
we saw some unique stuff happen
at the triangle, so
Had some time to start
processing and looking at it.
This is what we saw.
So I'll plug this in
so you guys can see it.
- Can we turn the TV on?
Yeah.
- There we go.
So
What's the
- What are we looking at here?
What is that spot?
For the last couple hours,
our team is trying
to look at this and say,
"Okay, what would cause
this void?"
Look at the
precise edges on that.
Of all the data we've collected
above the triangle,
OmniTeq's lidar identified
the clearest evidence yet
of something strange
right at the 31-foot level
where we saw the blob
earlier this year.
Just-- So-so, is this
just missing data
or are-- do we find
the data somewhere else,
where it wouldn't normally be expected to
be found? - The only data we see
in this area, you know,
it's pretty dense.
So you go from, like,
really dense scan to nothing.
Wow.
It's like it absorbed
the lidar lasers.
Jim, please tell me you've seen
this sort of thing before.
- No.
No. Neither has the team.
So, as you met,
Sam is, optical expert,
electronic warfare guy, looks
at all kinds of radar images,
and everybody's kind of
scratching their head,
to say the least,
over what this is.
Can you zoom way out?
Whoa.
- Look at that.
That's interesting.
- Yeah.
What is that red circle?
What is this whole area?
- Yeah, what is that?
You've got
a perfect circle around it
in high reflectivity.
- Wow.
The colors in lidar
data indicate reflectivity,
which is the percentage
of the laser light
returning to the sensor after
it bounces off of an object.
Yellows, greens and blues
would be less reflective
while the color red
is the indicator
of the highest reflectivity.
But the black
just made no sense.
It was like an open void.
So, given all
the anomalies and UAPs
we've seen above the triangle,
this made me wonder
if the legends about Skinwalker
Ranch could really be true.
It's-it's a shadow of something,
What is--
what are we looking at?
A black hole?
- Could be.
Well, that could be
- I mean
a shadow of a wormhole.
Whoa.
- Yeah, what is that?
Well, that could be
a shadow of a wormhole.
After all the bizarre
energy spikes,
possible communication signals,
UAPs that appeared
and then mysteriously vanished,
and other phenomena
that we've documented
at the triangle
on Skinwalker Ranch,
we've now collected lidar data
showing a perfectly
circular anomaly
surrounding another
shadowy anomaly
right above the triangle.
That's right over the launchpad,
and you're gonna be
at about 30 feet right there,
right where
the rockets have blown up.
It's almost like
a bull's-eye in the center
where the black is.
- Yeah, it sure is.
That is strange.
- A perfect circle.
I mean, that's a perfect circle.
- That's what's amazing.
You could do curve fit on it
and that is a perfect circle.
That's not a nat-- a natural phenomena
- No.
we're looking at right there.
- No, it's not.
That's the most amazing thing
I've ever seen out here.
Something had to block
all those laser beams.
So it's either
something's in the way
and you-- and it's,
and it's absorbing
all the stuff so it doesn't come back.
- Huh.
Right? Or it's bending
it elsewhere
and it doesn't come back.
- And it's something with a very
unnatural geometry.
I mean, that's how stealth
fighters work, for radar.
And li-- that's exactly
how stealth fighters work,
is the data just has gone
somewhere else.
So of all the lidar light
that hits the object,
the redder it is the closer
to 100% of all of it
coming back to the lidar
- Yep.
is-is the reflectivity
measurement.
The red actually means
that was the spot
where you were getting
the best return?
The most return, yeah.
- And so, as it gets closer
to the center,
i-it's diminishing as it
goes towards that. - Yep.
You know, I-I'm picturing
another shape here.
I'm picturing a cylindrical
an approximately
cylindrical zone
that flares out
at the top and below.
That's what I was about
to say, Erik,
I'm picturing two funnels
stuck together at the--
Yes. Yeah.
- And you know what that is, guys?
That is a traversable
Lorentzian wormhole.
That is what
we're talking about.
If Erik is right,
and what we are seeing
is the bottom of a funnel-shaped
anomaly above the triangle,
that is exactly what scientists
have theorized
a traversable Lorentzian
wormhole, or a portal,
to another place in the universe
would look like.
Could that really be what
causes all the energy spikes,
the blob and UAPs
that we've seen appear
and then disappear there?
This would explain
why we didn't see the ISS.
We were tracking it straight out
before it was right
over the top of that.
This could
account for everything
that's happened at the triangle.
So you're saying when
the helicopter's straight ahead,
but it's really over here to the south.
- It might, yeah.
It's because the sight
is coming down. - Yeah.
You're bending,
bending the light.
And that's why we're
dropping bottles a mile away.
And they land, and they land
two miles to the south.
Wow.
And high-projectile rockets
going the other direction
and going off.
Yeah. Many of them.
Think about
all the stories we have of UFOs
flying into the mesa
at that spot.
Were they really flying in
or were they
Just going somewhere else?
- Would you say "travel"?
Wow.
- Well, one way or the other,
something bent the path
of the light,
and we know that,
a hundred percent fact.
We know it's not
a failing device.
Something bent the light.
This has moved up dramatically
as far as
Priorities.
- priority-wise,
this is where
we're gonna be allocating
some of our resources, so
- Yeah. Yeah.
It increases my
interest in the idea
of simultaneous rocket launches.
Like, if we were to do
a volley of, say,
four or six rockets
at the same time
Yeah.
- and they all behave that way,
or-or, for that matter,
if they, you know, deviate
and cross paths or something.
Yeah,
I think that's a great idea, Erik.
We definitely need to do that.
Well, your guys and your tech
have a standing invitation
to be here as long as you want.
Maybe we won't go home.
Thank-thanks so much,
Jim. It was awesome.
And I'm excited
'cause this is just the beginning.
I mean, you guys
are just getting warmed up.
Yeah.
My God, is that not amazing?
I'm still trying
to get my head around it.
I can hardly believe
what I'm seeing.
It appears that there is
a very large region,
like a black hole in the data
right there
near the center of the triangle.
That leads to some
very interesting speculation.
We're talking about
something perhaps even
of exotic physics origins,
something redirecting
that infrared laser light
coming out
of the lidar system itself.
Are we seeing evidence
of a black hole or a wormhole?
I mean, we're all chasing
answers to those big questions.
Are we alone in the universe?
Are there others out there?
And what are these things
violating our airspace?
Going on four years
now, we've detected all sorts
of strange phenomena
over the triangle,
but the data we're collecting
is strongly suggesting
that the entire triangle area
could be an anomaly
that is beyond
our realm of understanding.
What we're seeing here
on Skinwalker Ranch
could truly change science
as we know it.
Are we dealing with portals?
Are we dealing with wormholes
at Skinwalker Ranch?
The data seems to suggest
that that may be
a plausible explanation for
a lot of the strange activity.
And what we're seeing here
at Skinwalker Ranch
is opening new doors
of understanding
and helping us better understand
our place in the universe.
We have had
another incident that shows
military surveillance
over our property.
- Really?
We know there's something
going on up there over the triangle.
We're gonna launch
a lot of rockets.
Wait, Thomas, look.
Right-right there.
Cameron is seeing orbs.
It came right out of the mesa.
What?
- My God.
- What? What?
We've got a clear anomaly
right outside the aircraft.
There's something in the sky
above the rocket.
Yeah, look at that.
- No way.
That's only 30 feet above us.
- My God.
Yeah, they're going--
they're going-- running
into each other!
- Well, that one just hit.
Right about that 31-foot mark.
It looked like
the border went off
as the rocket
was flying through it.
There is a
ranch in Northern Utah.
It is considered the epicenter
of the strangest and most
disturbing phenomena on Earth:
animal mutilations,
bizarre UFO sightings
and unusual energies that have
proven harmful to humans.
For 20 years,
the federal government
tried to find answers
and failed.
Now a new team
of dedicated scientists,
researchers and experts
has taken over.
They are determined to solve
the mystery and reveal
The Secret
of Skinwalker Ranch.
I know some of these guys.
Hey, there.
- Bring it in right here, man.
How you doing? Haven't seen you
in forever, man.
Appreciate you guys coming out.
We got a lot of stuff
planned for this evening.
We've seen more
phenomena this year
than ever before
all across Skinwalker Ranch.
Best way to describe
what we're gonna do tonight
is a multiphysics experiment
over the triangle.
One place that we now believe
could be a possible source
for a lot of those anomalies
is a spot in the middle
of the property
that we call the triangle.
Do you see this?
- Yeah!
Wow!
It's moving way too fast
for it to be a satellite.
We've not only seen UAPs
above it
that suddenly vanished
into thin air
And gone. That's insane.
but during a recent
radar balloon experiment
These are huge anomalies.
You now have
actual data telling us
there's a quarter of a second
time anomaly over the ranch.
Are we seeing
evidence of a portal?
at an altitude
of about 10,000 feet,
we actually recorded
multiple time shifts
of a quarter of a second
that, according to Einstein's
theory of general relativity,
could be evidence
of a gravitational effect
on time itself
that would be seen
around things like black holes
or even traversable wormholes.
Nobody's ever measured
any anomaly
like that on the planet.
Exactly.
But the craziest thing
we've witnessed
happened two months ago,
when something that looked
like a cloudy blob
caused a rocket to explode
above the triangle
just 31 feet in air.
There is literally something--
We may be looking at the anomaly
for the first time, guys.
So, to figure out
just what the heck the blob is,
we invited pyrotechnic expert
Nathan Whitehead,
along with my friend
Cameron Prince,
an electromechanical engineer,
to help us poke the spot
31 feet above the triangle
harder than ever before.
So, tell us a little bit
about what you brought,
and all that kind of stuff.
What I brought with me
is a-a flamethrower.
We're gonna shoot out
110, 120 feet of fire.
Wow.
Wow. So how hot,
is this gonna be burning
When-when, when the flame's
being projected?
Yeah, it's almost 2,000 degrees.
Wow.
- Yeah, so it's-it's pretty hot.
Cameron, did you bring,
a Tesla coil?
You know me.
I got the lightning.
All right, good.
I've got two different cameras
with different things
that we can do with those
to see what kind of anomalies
that we can catch. - Yeah,
and there will be plenty of heat and light,
for your cameras to be
illuminated at night. - Yeah.
Plenty.
- David, you brought
several different cameras,
right?
For-for infrared
and thermal imaging, right?
- Right.
Well, I know that Thomas
and our fire marshal
Don Mitchell
are down in the triangle
setting up everything otherwise.
Well, hey, look,
we're burning daylight.
Yeah, I'm excited to show y'all.
- Awesome.
Once the sun goes down,
using mechanical lifts,
we'll raise Cameron Prince
to that spot where he'll use
a handheld Tesla coil
to project more than 600 volts
of electricity through it
to see if that causes
the phenomenon to appear.
Yeah, check this out, guys.
And if that doesn't
work, Nathan Whitehead will also
be lifted to the 31-foot zone,
so he can literally fire
2,000-degree flames
through that anomaly.
We're gonna shoot
about 110 feet with this thing.
Boy.
All right,
everybody follow me out.
Let's be honest about this.
Almost every experiment
that we have performed to date
out here at the triangle
has produced
some kind of exceptional,
even anomalous result.
With this experiment,
we are hopeful
and even optimistic that we'll
have the opportunity to see
the anomaly over the triangle
as has never been seen before.
Here we are.
All right.
You guys got a lot of it
already set up.
Yeah, we're halfway there.
For tonight's experiment,
Burdette Anderson
will be recording
with his high-speed cameras,
which take
5,000 frames per second.
And technologist David Mason
will also be filming
the experiment
with his high-resolution
thermal FLIR cameras
that can visualize
anything with an anomalous
heat signature
that the naked eye can't see.
Everybody start getting set up,
do whatever you got to do.
If anything affects
the shape of the flames
or if the blob itself
appears again from
the electricity stimulation,
hopefully tonight,
we'll finally be able
to figure out
what in the world it really is.
All right, great, I think
we got this station set up.
Yeah, looks good.
You ready over there, Travis?
Yeah, man, I am.
Even though we were eager to see
what would happen
when the Tesla gun
and the flamethrower
were used at the triangle,
in all of our previous
experiments there,
we've had great success
stimulating phenomena
to occur by launching rockets.
So to be consistent,
Erik and I decided that's
the best way to start tonight.
Burdette,
are you set up?
- I'm ready to go,
I'm ready to trigger
when you guys are ready
to fire that rocket.
After all,
that's what we believe
originally triggered the blob
to appear at the 31-foot level
earlier this year.
What we're planning to do now--
certainly, if there's something
at 30, 40 feet above
the center of the triangle,
we're gonna get its attention.
- Let's go do it.
All right, Dragon, let's go get it set up.
- All right.
During this
observational exercise,
we will be monitoring
any response that we get
from the anomaly
using our standard kit,
including
the spectrum analyzers,
our TriField meters, of course.
We also have
our GPS loggers
that allow us to determine
whether anything unusual
may be happening
with space-time itself.
Of course we'll be watching
from the ground.
All right, let's do it.
I don't know
what's going to happen.
I don't think anyone does.
Cameras ready!
Burdette, you good?
- Good.
You guys ready to roll?
We're ready to roll.
- David, you good?
We're ready.
Three, two, one.
Did you get that, Burdette?
- Yeah.
Hey, guys,
you should take a look at this.
You're gonna want to see this.
- Yeah?
Look at that.
There is our 31-foot mark.
Takes a distinct turn right
into it, and, like, around it.
That's right where
it exploded last time.
Exactly right there,
it exploded.
How about that?
At the exact same height.
And then,
as soon as we get up at about 75, 80 feet,
it starts going straight again,
right there.
It's crazy.
Did you see that?
- Yeah.
We do not have a
good explanation for this.
That-that defies rocket science.
That is not what that was
supposed to do.
You know,
seeing this makes me want
to get that Tesla coil up there,
because if there's
something there
Yeah. -
who knows what we'll see.
Let's do it.
Let's get on with it.
After the bizarre diversion
of the rocket's trajectory,
we immediately wanted
to get Cameron Prince
lifted to the 31-foot-level
so he could shoot electricity
from his Tesla gun
through that zone
to see if we could get
the anomaly to appear.
Cameron, you ready?
- I'm ready.
All right, well,
let's go start loading up.
We are going to
transmit electrical energy
into the air with a Tesla coil.
A Tesla coil is an air core
transformer that creates
a very high-frequency,
high-voltage current
that produces these
lightning-like discharges.
All right,
so we're gonna start raising up.
The idea is to see if this can
somehow provoke or illuminate,
make visible this phenomenon.
Are you ready to fire?
Yes, we are. Are you ready?
All right, I'm gonna count down.
Three, two, one.
Wow.
That's bright.
Beam looks pretty
well-behaved right now.
Yeah.
That's what I was thinking, too.
Ready to come down?
Yeah, I think so.
After something
that we couldn't see
diverted a rocket just
31 feet above the triangle,
we were hoping
that Cameron Prince
could get whatever it was
to appear by pumping
over 600 volts of electricity
into that zone.
Well, did, you guys
see the arcs and stuff
on the high-speed and?
Yeah, I got some color arcs
on the high-speed.
Yeah? Didn't see any
anomalies or anything? - No.
Well, maybe when
we go back in, we look through
all this together and take more
time to go through each frame
or whatever,
we might see more to it.
Sounds good.
Let's reset for the flamethrower.
I'm ready to go,
everything's downloaded.
All right.
Nothing obviously strange
happened at the 31-foot level
above the triangle
during the Tesla gun operation.
You can hold
that up if you want.
But even still,
the anticipation
of shooting a massive flame
right through the blob zone
was pretty intense.
And we were all on edge.
That's 31 feet.
I'm ready-- I'm rolling
and ready to trigger.
All right, Bryant,
I'm gonna give you
a countdown from five.
On five,
- Five,
four, three,
- four, three,
two, one.
- two,
one.
Wow.
You can feel it.
- Look at-- Look at that.
Whoa, wow. Wow.
Nice. That's incredible.
Perfect, Nathan.
I have something that might
look a little strange.
What? What?
- Okay, well, let me call the guys over
and we'll take a look together.
What are you guys seeing?
I see Look at this one.
Burdette, frame back
on this one a little bit
and frame through it a
Okay.
Yeah, there's-there's,
there's clearly some empty spots.
I'll tell you
guys, we've, you know,
seen a lot of, a lot of footage
of out-our flames shooting out,
and it's not typical
that we have this separation.
Really?
- Yeah, that's correct.
Yeah, what
- That's-that's not typical at all.
Why is it horseshoeing?
- It's like
it's hitting something
or something's
there's an air current there
or something.
Yeah, I'm not sure.
- Something that's
it seems to be going around it.
It was great that we
had Burdette's camera system,
because even though
we didn't see in the moment,
when we played the high-speed
camera shots back,
something at the 31-foot level
literally split the flame
from Nathan's device in two.
It's almost like
when it hits this point,
it stops and it hits--
it-it runs into something
and it has to curl back 'cause it
still has that - Yeah.
that inertia,
it still has the momentum,
so it has to go back
the other way.
This is unusual.
- Yeah, it was a really--
it was a very unusual night.
This experiment gave
us incredible correlating data
that something strange
that diverts physical objects
does exist at the 31-foot level.
Was it the blob?
Was it evidence of a portal?
Well, I'm not certain
about any of that,
but we do have a lot
of recorded data to review,
and maybe it'll help us
figure it out.
It's becoming repeatable
that when we launch rockets
from this spot,
that we are getting a
you know, the strange m
maneuver with the rocket,
when it gets to about
30 to 40 feet up there.
And it's s-- happening almost,
I would say,
more times than not,
which is a statistical
weird thing, right?
And then, seeing the-the flames
do the weird things
- Yeah.
Both of them,
in two different times,
we saw these strange
vortices occur.
Yeah, like
there were voids in them
or they, or they break apart
and separate themselves.
So, I-- you know, I-I don't know
what to make of that.
Well, and I'll tell you,
I-I'm looking forward
to being able to sit down
at the command center here
in a day or two
and-and review the footage
and-and s--
and look at it closer.
I think we've
accomplished everything
we can do tonight, though, so
Yeah. - I'm all
for calling it a day.
Yeah, and we got
a lot of equipment to pack up.
I say we-we load up everything
and call it a night,
what do you think?
I second that. Yep.
Let's get out of here.
Thanks, everyone.
- All right, let's do it.
I've got some
high-speed camera footage.
Yeah.
So I want to bring this up
to the screen
for us to look at
how that rocket actually moved.
This is coming up out
of the center of the triangle.
Yeah.
- And suddenly
Suddenly something turns it.
Right there.
- Huh. Right there.
And we-- and we're
still scratching our heads
as to-- in response to what,
is this thing
changing directionally?
- Right.
That was the rocket launch,
and I have some
high-speed footage
of the flamethrower exercise.
- Yeah.
And if you see a feature
that you want to point out,
just stop me.
Okay, so here we see
- Wow.
Look at that thing.
Well,
that looks exactly like you'd expect.
The liquid is being tossed out
on a ballistic trajectory.
Right? It's gonna go out on a
curve
just like you threw a baseball,
but it's a liquid.
Now, that's interesting how
you're getting this separation.
And look at the curve--
the curve that's forming there.
Why did it do that
all of a sudden?
What's pushing
the flame downwards?
I'm not trying
to debunk it, saying
there's not something there
making the fire go around it.
Sure. - But it looks
more like what happened
is you burned out
all the oxygen of that spot
and you created a pocket that
forced the fire, below it.
It's basically the same reason,
weather systems push
against each other--
a high-pressure
and a low-pressure system,
warm front, cold front
pushing it--
but that's why you get
the little vortices,
you get tornadoes and stuff.
- So we're depleting the oxygen
in that dark zone?
Is that what you're saying?
- That's what I'm thinking it is now,
when-- watching it form.
As objective scientists,
Erik and I have to first look
for mundane explanations
for strange things that happen
out here on the ranch.
Now, it could be that the flames
being shot into the triangle
were split by oxygen
being burned up,
causing parts of them
to extinguish.
However, I think that hypothesis
is inconclusive at this point,
given that it occurred
at the 31-foot level.
Now, this same event
is captured in the, um
near infrared.
- Really?
Yeah, and so I have that record.
Here we go.
- There we go.
Okay.
That's fantastic, right there.
Hey, back up, back up, back up.
What is that?
Okay.
So I'll play it through
at the negative rate
and you can stop-- stop me
Wait, wait. Stop.
Wait-- R-Right here, look.
Yeah, I was seeing
those same things. - Right there.
I think you see one-- it-it kind of veers.
- Okay.
And it's not
connected to the flame.
Look, it's below the flame.
Okay, I'm
- You see it moving?
I'm gonna go backwards.
- And I saw it right there.
Yeah, no, it, it is moving up.
Okay, I'm going backwards.
You know what? There it is.
- Oop, there it is.
There it is, there it is.
In the frame.
It is in this. Look, right here.
Yes, yes, yes, yes.
Now it's gone.
- It's gone.
What the hell is that?
Well, that's strange.
Well, you see it go through.
Right here,
there is something here.
Yes.
- Wow.
It's, like,
flashing or strobing, too.
Yeah.
- Huh.
Right there.
- Yeah, I'm tracking it.
The high-speed footage
from last night's energy
experiment at the triangle
is truly incredible.
We recorded evidence
of a white orb-like UAP
right where the flames
that we shot
into the 31-foot-high blob zone
were split in two.
I can see it.
Now it's in the plume.
Well, I don't see it now.
Well, look,
there was clearly a thing
probably, you know,
50, 60 feet up
comes down and-and we see it
kind of vanish
somewhere around 30 feet.
So that moves 30 feet
in less than a second.
So it's moving fairly fast.
It reminds me of when you guys
were out there with the rocket
that blew up.
Something very similar
showed up.
Yep.
- This could be
a very similar phenomena.
Dragon was right.
When we first
captured images of the blob
that made our rocket explode
earlier this year,
we also saw a UAP
in our high-speed camera data
that looks just like this one
that we documented last night.
We're talking about
something showing up
right there
at that 30 to 35-foot level
where we've had so many other
things show up or-or, frankly,
things interacting with our rockets.
- Yeah.
There's something physical
going on there.
Absolutely.
We caught multiple UAPs emerging
and then disappearing
back into the blob zone
at the 31-foot level
above the triangle.
Where were they coming from,
and then, where did they go?
Was this more evidence
that supports the legends
about portals on the ranch
we've heard for years?
And could it be related
to the time anomalies
we documented two weeks ago?
We got enough evidence now
that says
there's something there,
and almost every time
we do a test,
we find some other little nuance
that we didn't realize was there
at the triangle.
And it was clear that we needed
more advanced technology
than ever before
to figure it out.
Well, one thing's for sure,
we're not done probing that space.
- Nope.
Well,
thanks for the review, guys.
How was the drive? Good, how are you?
- How we doing, sir?
I didn't know you was
bringing a whole baseball team.
So, after consulting
with Jay Stratton,
who not only served
as the director
of the federal government's
UAP task force
but also helped
investigate Skinwalker Ranch
back in the early 2000s,
he came back
with representatives
from a company known as OmniTeq,
including CEO Jim Royston,
who has over 20 years
of experience in the aerospace
and defense industry.
Thanks, you guys.
Thanks for coming.
These guys specialize
in data collection using
all kinds of high-tech equipment
on projects for
the Department of Defense, NASA
and other sensitive
government programs.
You guys remember Jay,
of course.
The OmniTeq team
brings us new opportunities
to really understand some of
this phenomenon on the ranch.
We're talking military
intelligence community-capable,
very expensive hardware
that's not readily accessible
to anyone else.
Really appreciate
the opportunity to come out.
From our A-team, I would say,
from the company here,
we have Shane Frazier,
communication specialist;
we have Sam Deriso,
who is former Navy
nuke and electronic warfare;
and then we have our CTO,
which is Tony Jamison,
former Naval Intelligence,
and also,
I'd say, data collection
and AI/ML specialist, also.
So, that's the team. - That's
impressive résumés right there.
Yep.
- One of the cool things,
a-and key things that Jay and I
have talked about
is these guys have backgrounds
in looking for signals
that are being hidden
or spoofed or jammed,
or electronic warfare,
and figuring out
what the useful information is.
And all of that is pertinent
to what's happening to us
out here at the ranch.
Yep. - So,
what we want to do this afternoon
is set up antennas
on the triangle, looking up,
that will receive signals from
the International Space Station
as it passes over the ranch.
Okay.
- Let's get to work.
Yeah, sounds good.
- Okay, guys. Thank you.
Just like many satellites,
as the International Space
station orbits the planet,
it constantly sends a strong
radio signal back down to Earth.
So we're gonna use
high-powered antennas
to lock onto that signal
and track it
through the anomalous zone
as the space station
passes over the ranch
this afternoon.
Meanwhile, Jim Royston
is going to be flying
an advanced drone-based
lidar device
that will be scanning
through the anomalous zone
above the triangle
with infrared lasers.
So, if something strange--
like the blob--
or some other phenomenon
breaks our connection
with the space station's signal,
Well, let's test this.
- we're hoping
that the lidar
will be able to see it
and help us identify
just what in the heck it is.
We'll fire it up.
- All right, so, this is gonna start
tracking the space station,
right, Sam? - Right.
With all this
advanced technology,
hopefully,
by the end of the day,
we'll finally get
some answers about the triangle
and all the phenomena that
we keep experiencing there.
So, I've tracked
the station before.
Yeah.
- This pass, what's it gonna be?
About a seven
or eight-minute track?
It's gonna be fairly short.
Actually, we acquire
the signal at 5:51
and we lose it at 5:59.
So we've got eight minutes.
- Eight minutes.
Erik, you keep talking about
having billion-dollar
experiments.
My last count,
the space station would cost
something like
$70 billion, right?
Yeah. There you go.
This is another one.
- This is a big experiment.
Yep.
So, we start to pick up the signal
in about three minutes.
- Three minutes!
All right, we're green.
So, yeah,
we'll just be ready to go.
Space station, start tracking.
All right.
Any second now, any second now.
There it is.
Tracking the space station now.
It's got it locked on?
- Yep.
So, right here.
- There you go, Erik.
Erik's got it
on his spectrum analyzer, too.
We need to get the drone
up in the air right now.
Home point updated.
Check map to confirm.
So strange.
There was just
a big GPS data change.
Really?
It won't connect.
Okay,
so we just lost the space station.
Um
Are you getting it?
- No, it's not showing up right now.
When it got overhead,
we actually lost the signal.
That's odd, isn't it?
- You see this?
There you go, Erik.
Erik's got it.
See these bumps?
That's the signal
being broadcast
from the space station.
What just happened?
Your system just went
completely away?
Right when the ISS was
over the triangle?
You got power.
Yeah, I've got light.
And it won't reboot, Erik?
- No.
We had our experiment
with the team from OmniTeq
timed perfectly to connect
their antennas on the ranch
with the International
Space Station
as it traveled over the property
to try and identify anomalies
above the triangle.
The connection should have
lasted for almost ten minutes
as the space station
flew over the ranch,
but after only about a minute,
the connection
was inexplicably lost.
And at that exact moment,
Erik's and my computer systems
completely shut down.
That's two major anomalies,
as far as I'm concerned.
Hey, Travis.
On that space station?
Yeah?
- We just had a big GPS change.
Right now, it just did that?
- Just did that.
It's all our GPS
correction data.
So the base station
thinks it's moving around?
Yeah. Just out of the blue.
Which, that's-that's
the first we've seen.
I can't--
it won't even take off,
My goodness.
It's incredible.
So to fly,
we might need to reboot that.
Do what you got to do.
- Yeah.
Having these experts out here
and seeing them have the same
type of equipment malfunctions
that others have had?
This is the highest tech
equipment there is,
and they are puzzled
beyond belief.
Travis, we've got
something strong.
You have something?
What frequency?
So, well, it's at 1.6510.
No kidding.
- Really?
Straight up?
- But it's-- Straight up.
Straight up and it's strong.
- But it's-it's a constant signal.
When Tony detected the signal
at a frequency of 1.6 gigahertz,
Erik and I were stunned.
That's the signal we've been
detecting above the triangle
for the past four years.
Especially when we've seen
phenomena like UAPs appear.
I-Is it meandering?
- No.
It's like a beacon.
Because human
technology does not
generally emit radio signals
at that specific frequency,
Erik and I have been baffled
by what or who
could be sending
this 1.6-gigahertz signal,
and also, where in the heck
it was coming from.
Especially since
we've often detected it
here above the triangle.
There it is.
That's the space station
right there.
It's starting to show up
stronger and stronger,
right there.
- Are you serious?
The funny thing is,
when it got overhead,
we actually lost the signal,
and now that it's past us
and it's, like, gone
Almost over the horizon to the south.
- Almost.
We picked it up again
and it's stronger now
after it's past us.
This was exciting.
So, OmniTeq lost
their connection
with the International
Space Station
as it passed over the triangle.
But then, once it moved
beyond that point,
it mysteriously reconnected
with their antennas,
suggesting that
there was something
floating above us
and blocking the signal.
All right, so, a lot of stuff
just went on here
with all of our different
instruments and everything,
so let's kind of recap
and understand exactly
what just happened.
We caught the ISS,
International Space Station,
right as it came over
the horizon.
And then when it gets
straight overhead,
we lost the signal
for whatever reason.
Yeah. - Right,
when it's over the anomaly.
Then as the station tracks over,
we detect it again
and see it real strong
as it goes over the horizon.
- That's right.
Your drone couldn't connect
to the GPS signals, right?
Yeah, it shut down.
And then, Erik, what happened to yours?
- I had a total system crash.
A total system crash?
Yeah, the whole, the whole
RF spectrum analyzer went down.
So, l-look,
at that, at that instant,
we had so many different
malfunctions,
and then, just following that,
we saw a signal
at 1.651 gigahertz.
Yes.
- So what this tells me,
now, is if there is something
going on right there now--
'cause we're having
this problem-- I want to launch
a rocket through it.
- Let's do it.
All right. Are you gonna be able
to get the lidar drone up? - Yep.
You think it's working now?
- It is right now.
Let's go.
Even though we lost
our ability to connect
with the International
Space Station,
when Jim said the lidar device
was finally operational,
I immediately wanted
to launch a rocket
up through the triangle while
he scanned the anomalous zone.
Check that out, Erik.
Real-time lidar point cloud.
That is impressive.
- That's amazing.
My hope was
that we could stimulate
whatever may have crashed
all of our systems
to appear in the lidar, so then,
we could determine
what the heck it was.
You hot over there?
Yep, we're hot there.
So,
get rea-- everybody in position
for rocket launches.
- Okay.
Launch in five,
four, three, two,
one.
Dude, that's a beautiful launch.
We caught it.
It was amazing.
- Really?
So, I'll show you.
I thought we would see
just a tight little line
going up as the rocket.
It dispersed all the points
out really wide.
Meaning that the lidar points
around it moved out of the way?
Yeah.
What?
Wow. This was insane.
As the rocket ascended up
through the triangle,
according to the lidar,
it passed right through
something that dispersed
and split the lidar beam into
multiple wave-like patterns.
Once again, we have evidence
that there is
something invisible
in this anomalous zone.
Holy smokes.
That might be the blob.
Do you know what elevation
you were looking at
when you saw the dispersion?
- Yeah, so,
we were seeing it probably about
20 feet off the top there.
Would that be about 30 feet
above ground level? - Maybe 30
Yeah. - Just
after something crashed
all our computer systems
at the triangle,
we launched a rocket up
through the anomalous zone.
And at about 30 feet high,
where we saw the blob
appear earlier this year,
OmniTeq's lidar scanner
showed that it penetrated
an invisible object
that caused the lidar data
to ripple like waves of water.
Was it the blob?
And if so,
what could that actually be?
Wow.
- That is so in line
with what we've seen.
Yeah, at 30 feet.
At-at 30 feet, that's crazy.
So we need
to reproduce that, then.
You try to get the drone
right where you had it last time
for this second launch.
Copy that.
- Yep, we're ready to roll.
You guys ready?
- All right, we're ready to roll here,
so you get in position.
- All right.
All right, well,
let's do this next one.
We've gotten such
interesting results
out of this first rocket launch
that I want to do it again.
Repeatability is an important
part of what we do out here.
We must launch
a rocket immediately.
Here we go,
rocket's ready to go.
All right, we're hot.
Rocket's going up in five,
four, three,
two, one.
So, I'm not seeing anything.
It didn't happen that time.
- I didn't see anything. - I don't see it.
Nope, it didn't happen that time.
- I don't see it.
We didn't see anything.
I saw none of that effect
this time.
Really?
- Yeah.
Travis, we didn't
even pick it up.
There's no lidar.
- Like something blocked it right out.
Blocked it right out?
What do you mean?
We didn't pick
up that launch. - Really?
Yeah.
It's nothing.
- Nothing.
What?
How could OmniTeq's lidar
not see the rocket at all
as it ascended through the
31-foot zone above the triangle?
This was a state-of-the-art
technology.
It didn't make sense,
unless whatever caused
the ripples in the data
with the first rocket
actually cloaked or completely
masked the second one.
You might really want
to get back over there
to the command center and review
the high-resolution lidar data.
Absolutely. Let's get over
there and take a look at it.
All right.
- Yeah.
Hey, how we doing?
Well, you know, as we're just talking,
I'm sitting here
in total suspense to see
what you've got
from all of the lidar data.
After the experiment,
Jim Royston and his colleagues
from OmniTeq
spent several hours
processing their lidar data
to much higher resolution.
So we couldn't wait
to see if that data
would reveal just
what caused the anomaly
that we witnessed
31 feet above the triangle.
You want to lead us into it?
Absolutely. So
you know, obviously,
we saw some unique stuff happen
at the triangle, so
Had some time to start
processing and looking at it.
This is what we saw.
So I'll plug this in
so you guys can see it.
- Can we turn the TV on?
Yeah.
- There we go.
So
What's the
- What are we looking at here?
What is that spot?
For the last couple hours,
our team is trying
to look at this and say,
"Okay, what would cause
this void?"
Look at the
precise edges on that.
Of all the data we've collected
above the triangle,
OmniTeq's lidar identified
the clearest evidence yet
of something strange
right at the 31-foot level
where we saw the blob
earlier this year.
Just-- So-so, is this
just missing data
or are-- do we find
the data somewhere else,
where it wouldn't normally be expected to
be found? - The only data we see
in this area, you know,
it's pretty dense.
So you go from, like,
really dense scan to nothing.
Wow.
It's like it absorbed
the lidar lasers.
Jim, please tell me you've seen
this sort of thing before.
- No.
No. Neither has the team.
So, as you met,
Sam is, optical expert,
electronic warfare guy, looks
at all kinds of radar images,
and everybody's kind of
scratching their head,
to say the least,
over what this is.
Can you zoom way out?
Whoa.
- Look at that.
That's interesting.
- Yeah.
What is that red circle?
What is this whole area?
- Yeah, what is that?
You've got
a perfect circle around it
in high reflectivity.
- Wow.
The colors in lidar
data indicate reflectivity,
which is the percentage
of the laser light
returning to the sensor after
it bounces off of an object.
Yellows, greens and blues
would be less reflective
while the color red
is the indicator
of the highest reflectivity.
But the black
just made no sense.
It was like an open void.
So, given all
the anomalies and UAPs
we've seen above the triangle,
this made me wonder
if the legends about Skinwalker
Ranch could really be true.
It's-it's a shadow of something,
What is--
what are we looking at?
A black hole?
- Could be.
Well, that could be
- I mean
a shadow of a wormhole.
Whoa.
- Yeah, what is that?
Well, that could be
a shadow of a wormhole.
After all the bizarre
energy spikes,
possible communication signals,
UAPs that appeared
and then mysteriously vanished,
and other phenomena
that we've documented
at the triangle
on Skinwalker Ranch,
we've now collected lidar data
showing a perfectly
circular anomaly
surrounding another
shadowy anomaly
right above the triangle.
That's right over the launchpad,
and you're gonna be
at about 30 feet right there,
right where
the rockets have blown up.
It's almost like
a bull's-eye in the center
where the black is.
- Yeah, it sure is.
That is strange.
- A perfect circle.
I mean, that's a perfect circle.
- That's what's amazing.
You could do curve fit on it
and that is a perfect circle.
That's not a nat-- a natural phenomena
- No.
we're looking at right there.
- No, it's not.
That's the most amazing thing
I've ever seen out here.
Something had to block
all those laser beams.
So it's either
something's in the way
and you-- and it's,
and it's absorbing
all the stuff so it doesn't come back.
- Huh.
Right? Or it's bending
it elsewhere
and it doesn't come back.
- And it's something with a very
unnatural geometry.
I mean, that's how stealth
fighters work, for radar.
And li-- that's exactly
how stealth fighters work,
is the data just has gone
somewhere else.
So of all the lidar light
that hits the object,
the redder it is the closer
to 100% of all of it
coming back to the lidar
- Yep.
is-is the reflectivity
measurement.
The red actually means
that was the spot
where you were getting
the best return?
The most return, yeah.
- And so, as it gets closer
to the center,
i-it's diminishing as it
goes towards that. - Yep.
You know, I-I'm picturing
another shape here.
I'm picturing a cylindrical
an approximately
cylindrical zone
that flares out
at the top and below.
That's what I was about
to say, Erik,
I'm picturing two funnels
stuck together at the--
Yes. Yeah.
- And you know what that is, guys?
That is a traversable
Lorentzian wormhole.
That is what
we're talking about.
If Erik is right,
and what we are seeing
is the bottom of a funnel-shaped
anomaly above the triangle,
that is exactly what scientists
have theorized
a traversable Lorentzian
wormhole, or a portal,
to another place in the universe
would look like.
Could that really be what
causes all the energy spikes,
the blob and UAPs
that we've seen appear
and then disappear there?
This would explain
why we didn't see the ISS.
We were tracking it straight out
before it was right
over the top of that.
This could
account for everything
that's happened at the triangle.
So you're saying when
the helicopter's straight ahead,
but it's really over here to the south.
- It might, yeah.
It's because the sight
is coming down. - Yeah.
You're bending,
bending the light.
And that's why we're
dropping bottles a mile away.
And they land, and they land
two miles to the south.
Wow.
And high-projectile rockets
going the other direction
and going off.
Yeah. Many of them.
Think about
all the stories we have of UFOs
flying into the mesa
at that spot.
Were they really flying in
or were they
Just going somewhere else?
- Would you say "travel"?
Wow.
- Well, one way or the other,
something bent the path
of the light,
and we know that,
a hundred percent fact.
We know it's not
a failing device.
Something bent the light.
This has moved up dramatically
as far as
Priorities.
- priority-wise,
this is where
we're gonna be allocating
some of our resources, so
- Yeah. Yeah.
It increases my
interest in the idea
of simultaneous rocket launches.
Like, if we were to do
a volley of, say,
four or six rockets
at the same time
Yeah.
- and they all behave that way,
or-or, for that matter,
if they, you know, deviate
and cross paths or something.
Yeah,
I think that's a great idea, Erik.
We definitely need to do that.
Well, your guys and your tech
have a standing invitation
to be here as long as you want.
Maybe we won't go home.
Thank-thanks so much,
Jim. It was awesome.
And I'm excited
'cause this is just the beginning.
I mean, you guys
are just getting warmed up.
Yeah.
My God, is that not amazing?
I'm still trying
to get my head around it.
I can hardly believe
what I'm seeing.
It appears that there is
a very large region,
like a black hole in the data
right there
near the center of the triangle.
That leads to some
very interesting speculation.
We're talking about
something perhaps even
of exotic physics origins,
something redirecting
that infrared laser light
coming out
of the lidar system itself.
Are we seeing evidence
of a black hole or a wormhole?
I mean, we're all chasing
answers to those big questions.
Are we alone in the universe?
Are there others out there?
And what are these things
violating our airspace?
Going on four years
now, we've detected all sorts
of strange phenomena
over the triangle,
but the data we're collecting
is strongly suggesting
that the entire triangle area
could be an anomaly
that is beyond
our realm of understanding.
What we're seeing here
on Skinwalker Ranch
could truly change science
as we know it.
Are we dealing with portals?
Are we dealing with wormholes
at Skinwalker Ranch?
The data seems to suggest
that that may be
a plausible explanation for
a lot of the strange activity.
And what we're seeing here
at Skinwalker Ranch
is opening new doors
of understanding
and helping us better understand
our place in the universe.
We have had
another incident that shows
military surveillance
over our property.
- Really?
We know there's something
going on up there over the triangle.
We're gonna launch
a lot of rockets.
Wait, Thomas, look.
Right-right there.
Cameron is seeing orbs.
It came right out of the mesa.
What?
- My God.