Chaos and computer security.

 The most conventional way to use holograms in data security is to take a picture of the hologram and use it as the key to access the system. The hologram can make those access photos individuals if they change their shape and color all the time.

Holograms are new tools for data security and computing. In the latest technological advances, a high-energy laser that shoots beams through a whirling liquid will encrypt data. Those systems are expensive, but maybe "chaos encryption" is the tool for future encryption. The whirling liquids can help create complete chaos. That makes it impossible to calculate the process backward. The chaos means that there are some particles in the chamber.

The system will make them move and then transmit the information through that chamber. The encryption system takes an image of the position of the particles and sends it to receivers. Then the receiver can use that image or information to calculate changes that happened in the laser beam. The system is unbreakable because the decoding process requires information about the particle's position precise in the moment when information travels through the chamber.

 

"Researchers created an optical system that encrypts information as a hologram that is scrambled when sent through a small container of liquid and then uses a neural network for decryption. Credit: Stelios Tzortzakis, Institute of Electronic Structure and Laser, Foundation for Research and Technology Hellas" (ScitechDaily, Hack-Proof Encryption: How AI and Holograms Are Making Data Unbreakable)

"Researchers have designed a cutting-edge optical security system that uses holograms to encode information, rendering it unreadable without an AI-driven decryption key. Credit: SciTechDaily.com" (ScitechDaily, Hack-Proof Encryption: How AI and Holograms Are Making Data Unbreakable)

 

" The researchers tested the new approach on handwritten digits and other shapes like stars. Credit: Stelios Tzortzakis, Institute of Electronic Structure and Laser, Foundation for Research and Technology Hellas" (ScitechDaily, Hack-Proof Encryption: How AI and Holograms Are Making Data Unbreakable)

 

 

Holograms can also transmit information in normal networks. The hologram can be like a light bulb. And it can blink sending information to receivers. That receiver can be a standard web camera. The hologram can change its shape and that makes it impossible to fake the massages. When a hologram transmits binary data it can change its shape, color, or blink. The hologram that the outsider cannot see makes information transmission safe.

The problem with optical systems is that they are not visible through the walls. The X- or gamma-rays and acoustic systems can make data transmission more secure. Things like coherent acoustic waves don't disturb people if they are not at the route of acoustic waves. Same way X-ray and gamma-ray systems are not dangerous if people are not in the line of their radiation.

Things like scattering effects make the lasers vulnerable. If somebody delivers particles to the laser ray's route that makes the laser ray visible to outsiders.

Things like lidar-based technologies that involve the lenses that expand the laser rays make it possible that those systems must not aimed so precisely as regular lasers. The system can send call-signal using a large spotlight. When receivers tell where they are the system can start to use precisely aimed lasers. Things like UV lamps are things that are invisible to IR sensors.  

But the problem is that holograms must be visible to receivers. The hologram can also act as an optical router. The sensors are around that thing. The shape or color can determine which route the system uses to transport information. The optical systems are safe because laser rays are harder to eavesdrop.

If somebody tries to steal data from a laser ray, that leaves a mark on that laser ray. Things like the scattering effect make it possible to break some laser systems. The dust that the eavesdropper delivers to the laser beam can cause a situation where the outsider can see the laser ray.

https://scitechdaily.com/hack-proof-encryption-how-ai-and-holograms-are-making-data-unbreakable/