ID: 7a80b5f2-7ec8-4e27-9455-405df607dcab

Anonymous

I made SDR based I/Q recordings of every minute of each transmission for all 4 days. Unfortunately, propagation and other variables made some of the segments pretty poor recordings. But over that time I did manage to get at least one decent copy of each of the 10 Movements.

I have converted them to video recordings and uploaded them to my Youtube channel ( FirstToken ). Any transmission involving 2 frequencies (such as the several Luxembourg experiments) are recorded using stereo sound, so that the lower RF frequency is in the left audio channel, and the upper RF frequency is in the right audio channel.

A few notes on some of the receptions:

The first video, Movement I, II, and III consists of a Prelude, a poem (in Morse code), and a description (again, in Morse code) of the methodology used in the later Stochistic experiment (Movement IV).

Movement VIII is a Luxembourg event. The HAARP array was split in two and two counter rotating beams were formed, with a rate of about 2 revolutions per minute. You can clearly hear the mixing of the two RF channels, the Luxembourg effect, happening about twice per minute in the left audio channel.

Movement X is another transmission of Morse. In this case a bit of a poem, but maybe a description also. This Morse leads me to believe that there is WSPR (a low bandwidth ham weak signal digital mode) buried in the transmissions. But I have not yet attempted to locate it in the recordings, maybe this coming weekend ;)

All recordings were done on local SDRs, I mean SDRs physically located at my home. Multiple SDRs were in use at any one time, typically the SDRs in use consisted of WinRadio G33DDC, WinRadio G31DDC, RFSpace NetSDR, and 2 RFSpace SDR-IQs. However, not for any specific reason, all of the recordings I chose to convert to video came off either the NetSDR or one of the two SDR-IQs. The antennas used were a Wellbrook 1530+, a 450 foot apex-to-apex Rhombic, and a triband fan dipole. Again, for no particular reason, all of the recordings I converted to video came off the fan dipole.

Reception Reports

Expand a row below for details.

California, United States
Date Movement Media
Expand IX. Spy Cameras from the Sky and a Mystery Box in the Woods
Time
02:46:00 – 02:56:00
Frequency (MHZ)
5.10, 6.90
Antenna
160/80/60 meter fan dipole configured in an inverted V, with each set of elements on a different bearing
Receiver
RFSpace NetSDR
Note

https://www.youtube.com/watch?v=Sv5Nfj2-738

This video is of Movement IX, Spy Cameras from the Sky and a Mystery Box in the Woods. It is a Luxembourg experiment, attempting to detect atmospheric mixing of two different radio frequencies. The two frequencies used were 5100 kHz and 6900 kHz. In this video 5100 kHz can be heard in the left audio channel, and 6900 kHz is in the right audio channel.

Recorded at my location in the Mojave Desert, California, USA, on 27 March, 2019, starting at about 0246 UTC. Receiver used was an RFSpace NetSDR, the antenna used was a 160/80/60 meter fan dipole configured in an inverted V, with each set of elements on a different bearing.

Expand X. Not with a Bang but with a WSPR
Time
02:56:30 – 02:59:30
Frequency (MHZ)
3.2
Antenna
160/80/60 meter fan dipole configured in an inverted V, with each set of elements on a different bearing
Receiver
RFSpace NetSDR
Note

https://www.youtube.com/watch?v=T5So4Zwe6k0

This video is of Movement X, Not with a Bang but with a WSPR. This is an Air Glow experiment, transmitted on 3200 kHz.

The Morse code sent reads:
LIKE THE GHOST, THE SIGNAL IS INSIDE - INSIDE THE NOISE.
BE CAREFUL WHEN YOU FILTER.
SOME OF THAT NOISE MIGHT ACTUALLY BE SIGNAL.
THE BEGENDING OF THE UNIVERSE LEFT ECHOES IN THE MICROWAVES.
WAS IT A BANG OR A WHISPER?
WILL IT BE A WHIMPER OR A WSPR?

This Morse leads me to ask, could there be a WSPR signal hidden in the spectrum?

Recorded at my location in the Mojave Desert, California, USA, on 27 March, 2019, starting at about 0256 UTC. Receiver used was an RFSpace NetSDR, the antenna used was a 160/80/60 meter fan dipole configured in an inverted V, with each set of elements on a different bearing.

Expand VII. Letters and Numbers
Time
08:33:00 – 08:39:00
Frequency (MHZ)
2.75, 3.15
Antenna
160/80/60 meter fan dipole configured in an inverted V, with each set of elements on a different bearing
Receiver
RFSpace NetSDR
Note

https://www.youtube.com/watch?v=P8zngbmqO0A

This video is of Movement VII, Letters and Numbers. It is a Luxembourg experiment, attempting to detect atmospheric mixing of two different radio frequencies. The two frequencies used were 2750 kHz and 3150 kHz. In this video 2750 kHz can be heard in the left audio channel, and 3150 kHz is in the right audio channel.

Recorded at my location in the Mojave Desert, California, USA, on 28 March, 2019, starting at about 0833 UTC. Receiver used was an RFSpace NetSDR, the antenna used was a 160/80/60 meter fan dipole configured in an inverted V, with each set of elements on a different bearing.

Expand VIII. Pictures and Words
Time
08:39:30 – 08:45:30
Frequency (MHZ)
2.75, 3.15
Antenna
160/80/60 meter fan dipole configured in an inverted V, with each set of elements on a different bearing
Receiver
RFSpace NetSDR
Note

https://www.youtube.com/watch?v=32wxv8d6ZOc

This video is of Movement VIII, Pictures and Words. It is a Luxembourg experiment, attempting to detect atmospheric mixing of two different radio frequencies. The two frequencies used were 2750 kHz and 3150 kHz. In this video 2750 kHz can be heard in the left audio channel, and 3150 kHz is in the right audio channel.

At several points, as annotated in the video, you can hear both frequencies mixing in the left audio channel, on 2750 kHz. This is occurring at approximately the 2 rotations per minute of the HAARP beams.

Recorded at my location in the Mojave Desert, California, USA, on 28 March, 2019, starting at about 0839 UTC. Receiver used was an RFSpace NetSDR, the antenna used was a 160/80/60 meter fan dipole configured in an inverted V, with each set of elements on a different bearing.

Expand I. Prelude / II. Introductions to the Ghost / III. Methodologies in Music and Morse
Time
06:00:00 – 06:11:00
Frequency (MHZ)
2.75
Antenna
160/80/60 meter fan dipole configured in an inverted V, with each set of elements on a different bearing
Receiver
RFSpace NetSDR
Note

https://www.youtube.com/watch?v=oGkoOJJ4XZA&feature=emb_logo

This video is of Movement I, II, and III. These were descriptions of upcoming transmissions sent as an air glow experiment on 2750 kHz. Descriptions are sent in both voice and Morse Code.

Movement II, Introduction to the Ghost, sent in Morse code:
THE GHOST IS NOT OUTSIDE.
THE GHOST IS INSIDE.
IT IS NOT DIFFERENCE BETWEEN WHAT YOU SAY AND WHAT YOU THINK.
THE GHOST IS THE SPACE BETWEEN THE MATTER AND THE MIND.
IT IS THE DIFFERENCE BETWEEN THE MEMORY OF YOUR LOVED ONE AND THE PHOTOGRAPH YOU TOOK OF THEM A LONG TIME AGO WHEN YOU WERE YOUNG.

Movement III, Methodologies in Music and Morse, Sent in Morse Code:
THE STOCHISTIC GHOST RESONANCE IS A PHANTOM FREQUENCY.
IT IS A MISSING FUNDAMENTAL THAT FORMS INSIDE THE COCHLEA OF YOUR EAR OR INSIDE THE CALCULATIONS OF YOUR BRAIN- DEPENDING ON WHOM ASK.
I WILL SEND YOU A PHANTOM FREQUENCY.
IF YOU CAN CLEARLY RECEIVE AND HEAR BOTH OVERTONES THEN THE MISSING FUNDAMENTAL WILL FORM INSIDE YOUR EAR OR INSIDE YOUR MIND IT WILL BECOME THE GHOST- YOUR PHANTOM FREQUENCY.
I WILL NOW SEND YOU TWO FREQUENCIES, ON TWO DIFFERENT FREQUENCIES.

Recorded at my location in the Mojave Desert, California, USA, on 29 March, 2019, starting at about 0600 UTC. Receiver used was an RFSpace NetSDR, the antenna used was a 160/80/60 meter fan dipole configured in an inverted V, with each set of elements on a different bearing.

Expand IV. Saxophonal Stochastic Ghost Resonances
Time
06:11:30 – 06:16:30
Frequency (MHZ)
2.75, 3.35
Antenna
160/80/60 meter fan dipole configured in an inverted V, with each set of elements on a different bearing
Receiver
RFSpace NetSDR
Note

https://www.youtube.com/watch?v=Nyj_MaAuDi0

This video is of Movement IV, Saxophonal Stochastic Ghost Resonances. It is a Luxembourg experiment, attempting to detect atmospheric mixing of two different radio frequencies. The two frequencies used were 2750 kHz and 3350 kHz. In this video 2750 kHz can be heard in the left audio channel, and 3350 kHz is in the right audio channel.

The Saxophone played in this Movement is by Geneviève D'Ortun, she improvised the piece shortly before this series of HAARP experiments.

Recorded at my location in the Mojave Desert, California, USA, on 29 March, 2019, starting at about 0611 UTC. Receiver used was an RFSpace NetSDR, the antenna used was a 160/80/60 meter fan dipole configured in an inverted V, with each set of elements on a different bearing.

Expand V. Wolves Chasing the Ghost
Time
06:17:00 – 06:22:00
Frequency (MHZ)
2.75
Antenna
160/80/60 meter fan dipole configured in an inverted V, with each set of elements on a different bearing
Receiver
RFSpace NetSDR
Note

https://www.youtube.com/watch?v=-sT2N1LulZ4&feature=emb_logo

This video is of Movement V, Wolves Chasing the Ghost. This was an air glow experiment on 2820 kHz.

Recorded at my location in the Mojave Desert, California, USA, on 29 March, 2019, starting at about 0600 UTC. Receiver used was an RFSpace NetSDR, the antenna used was a 160/80/60 meter fan dipole configured in an inverted V, with each set of elements on a different bearing.

Expand VI. The Mind and the MRI
Time
06:22:30 – 06:32:30
Frequency (MHZ)
2.75, 3.35
Antenna
160/80/60 meter fan dipole configured in an inverted V, with each set of elements on a different bearing
Receiver
RFSpace NetSDR
Note

https://www.youtube.com/watch?v=YV2tC6z7uMk

This video is of Movement VI, The Mind and the MRI. It is a Luxembourg experiment, attempting to detect atmospheric mixing of two different radio frequencies. The two frequencies used were 2750 kHz and 3350 kHz. In this video 2750 kHz can be heard in the left audio channel, and 3350 kHz is in the right audio channel.

Recorded at my location in the Mojave Desert, California, USA, on 29 March, 2019, starting at about 0622 UTC. Receiver used was an RFSpace NetSDR, the antenna used was a 160/80/60 meter fan dipole configured in an inverted V, with each set of elements on a different bearing.