3I/ATLAS technical characteristics

Study available:

• 3I/ATLAS's high-coverage "line of force" detection mechanism and evidence
• Structure and operation of the „force line” system for dimension manipulation
• Security risk of "force line" dimension manipulation
• LTH- propulsion interaction with "force lines"
• Energy and data transfer working mechanism with LTH dimensional manipulation
• Condition for the interaction of a controllable object with "lines of force"

Evidence that 3I/ATLAS has a technical signature

3I/ATLAS data transfer: In my opinion, the 3I/ATLAS uses the LTH system to transmit data. This means that the dimensional output beam teleports the data while still inside the object (output head internal structure). This way, it cannot be detected by our observation. Moreover, this data transfer is energetic, which is similar to laser data transfer for us. This is why this technology is interesting in laser teleportation from a military perspective, because the transmitter cannot be seen from the target (receiver) side.

Detection of a large-area field line system can only be achieved by a "comet-like" technical solution. The scattered yet directed counter-beam must achieve maximum coverage to separate the energy from the sun, so that the LTH system and the drive receive a continuous amount of energy. If we look at the possibility of a technical signature from the perspective of dimensional manipulation technology, the probability is 90%. The technical structure is visible in the archive image, so it is absolutely clear that it is not a comet. Astronomers do not use layered slicing radiation technical decoding to recognize technical structures.

• Specific image indicating mechanical external structure
• 4 pieces jet outflow
• Existence of the trajectory plane necessary for 3I/ATLAS line of force detection
• Specific image of line of force detection
• A persistent sunward jet for energy capture
• A stable structure with high outflow conditions that is continuous.

New evidence 1.) image for detecting the force line system 01. 07. 2026

Hubble:  https://mast.stsci.edu/search/ui/#/hst/results?proposal_id=18152

Images of 3I/ATLAS through 170 second exposures by the WFC3 UVIS (F350LP) camera of the Hubble Space Telescope, from 2025-12-12 T21:20:32 U.T., the emitting areas (Green Coulor) and the indicated PAs are clearly visible. Need to better interpret the "hole" in the direction of the antitail towards the Sun at PA~115°. I only used the unsharpmask filter. (Toni Scarmato processing, image reliased by NASA/ESA/STScI)

False-color image of 3I/ATLAS, taken on December 12, 2025 through a 170 second exposure by the WFC3 UVIS (F350LP) camera of the Hubble Space Telescope (top panel), and processed with the Larson-Sekanina gradient filter (bottom panel). The more prominent jet towards the lower left corner is an anti-tail directed at the Sun. (Image credit: NASA/ESA/STScI; Color filter processing: Toni Scarmato)

Interstellar comet 3I/ATLAS is seen in this composite image captured on Nov. 6, 2025 by the Europa Ultraviolet Spectrograph instrument on NASA's Europa Clipper spacecraft instrument, from a distance of around 103 million miles (164 million kilometers). Credit: NASA/JPL-Caltech/SwRI https://en.wikipedia.org/wiki/Europa_Clipper

Line of force active detection

1.) 3I/ATLAS is just a probe, creating the map necessary for precise dimensional manipulation, which continuously transmits data. 2.) It is camouflaged by elements covering its outer surface (fog...), the energy emission is similar to that of a comet, but technologically it corresponds to the technology of force line detection. The object must 1. move, 2. give energy to the force lines, 3. detect it back for map-like recording. This requires 4 outflow and 3 return functions during basic operation. 3I/ATLAS has this. One beam performs several functions. They have a complex structure. The beam receives energy from the Sun, and in the same way it charges the force line system. Researchers do not know of a similar technical structure, so the object cannot be identified. The components of the outflows are of course the same as the substances found in nature, they are analyzed in detail.

Comet 3I/Atlas, 15 December 2025, T01:58:36 UT, 25 cm Newton f/4.8+CMOS ASI294MC Pro telescope, 60x60 sec exposure, 1.38"/pixel resolution (1pixel=3850 km at the comet's distance), 20'x9' field of view, Larson Sekanina applied to the images in the R channel (lambda peak 658+/-138 nm), the green channel (lambda peak 530+/-90 nm) and the blue channel (lambda peak 445+/-94 nm), Toni Scarmato Astronomical Observatory, San Costantino di Briatico, Calabria, Italy, MPC L92

Processing of comet 3I/Atlas, December 15, 2025, 02:28:12 UT, Toni Scarmato Astronomical Observatory, 25 cm Newton f/4.8+CMOS ASI294MC Pro telescope, 60x60 second exposure, MPC L92, other data in the image.

Highlight only... illustration. (Engineering-level design for the Department of Defense only.)

So far, unidentified objects with the LTH system have appeared in the airspace very rarely.

I believe that so far they have only appeared in the airspace during strategic experiments. After the measurements of 3I/ATLAS, they will appear intentionally during dimensional appearances in the airspace (according to our own plan, which we do not explain). The question is, what will be their purpose???

3I/ATLAS may be a self-destructing object
3I/ATLAS has a TNB internal structure that is capable of self-destruction (central detonation) if the two main jet streams cease to exist. A similar internal structure is also visible in the photograph in the astronomers' documentation. I assume that after it has completed its task, it will self-destruct.

Processed images of the inner coma of interstellar comet 3I/ATLAS (C/2025 N1) obtained during different nights with the TTT. Image processing allows us to identify a narrow jet of material emerging from the Sun-illuminated core area, clearly differentiated from the dust tail, which extends in the opposite direction. The superimposed lines indicate the orientation of the jet and allow us to infer the direction of the comet's axis of rotation. The arrows indicate the direction of the comet's movement and the antisolar direction, while the cross marks its centre. Credit: TTT (Light Bridges) / IAC