Skip to main content

The new hologram technology is more than just 3D images.


"A new method developed by researchers significantly simplifies the creation of computer-generated holograms, allowing for real-time generation of 3D images with accurate depth. This breakthrough could revolutionize holographic display technology across various industries." (ScitechDaily, Revolutionizing 3D: New Holographic Technique Breaks Computational Barriers)

The touch screens are the standard in the mobile technology. If engineers create the touch screen using laser LEDs that screen can turn the mobile telephone's screen into a hologram system. On that screen, the laser LEDs act as miniature buttons. That makes it act like all other touch screens. 

Hologram technology can turn cell phone screens into holographic displays that hover holograms over the screen can make 3D images about all things in the world. Those images can be cracked sections or outside holograms. 

Drones that can fly around the structure can scan it from all directions. And then the system can make X-ray or normal 3D images of targets. The sensor transmits data to the cell phone. And the hologram system can make the hologram using that information. 

The holograms allow to make the optical data network. Like regular lasers, the hologram can transmit data. And that thing can create optical data transmission between two mobile devices. The system uses holograms to transmit information. The CCD camera can act as a receiver.  And that allows the system to transmit data in a heavy EM field. 

In the office, the hologram can be on the roof. And transmit information between devices. Mirrors can increase the visibility of those systems. The problem with optical networks is that the receivers must have visual contact with transmitters. But optical networks can make things like drone swarms more resistant against ECM systems. The hologram is visible from many sides. And that makes it easier to aim receivers at them. 

Holograms are also very useful tools in nanotechnology. Using infrared holograms. The system can warm one of the atoms or molecules. Then that makes it possible to create a system where other components are at higher temperatures than others. This makes it easier to connect pieces into one entirety. 

Nanotechnology and holograms are an ultimate combination. IR holograms can transport energy precisely to the right point in the structure. And it helps the system to adjust the enzyme reaction speed. All chemical reactions depend on the energy, that impacts that reaction. The system can adjust the reaction speed by adjusting the temperature. A hologram gives softer light than a straight laser ray. And that makes it a more sensitive tool to handle things like nano-membranes.

https://scitechdaily.com/revolutionizing-3d-new-holographic-technique-breaks-computational-barriers/

Comments

Post a Comment

Popular posts from this blog

The new bendable sensor is like straight from the SciFi movies.

"Researchers at Osaka University have developed a groundbreaking flexible optical sensor that works even when crumpled. Using carbon nanotube photodetectors and wireless Bluetooth technology, this sensor enables non-invasive analysis and holds promise for advancements in imaging, wearable technology, and soft robotics. Credit: SciTechDaily.com" (ScitechDaily, From Sci-Fi to Reality: Scientists Develop Unbreakable, Bendable Optical Sensor) The new sensor is like the net eye of bugs. But it's more accurate than any natural net eye. The system is based on flexible polymer film and nanotubes. The nanotubes let light travel through it. And then the film at the bottom of those tubes transforms that light into the image. This ultra-accurate CCD camera can see ultimate details in advanced materials. The new system can see the smallest deviation in the materials.  And that thing makes it possible to improve safety on those layers. The ability to see ultra-small differences on surf
Post a Comment
Read more

Quantum breakthrough: stable quantum entanglement at room temperature.

"Researchers have achieved quantum coherence at room temperature by embedding a light-absorbing chromophore within a metal-organic framework. This breakthrough, facilitating the maintenance of a quantum system’s state without external interference, marks a significant advancement for quantum computing and sensing technologies". (ScitechDaily, Quantum Computing Breakthrough: Stable Qubits at Room Temperature) Japanese researchers created stable quantum entanglement at room temperature. The system used a light-absorbing chromophore along with a metal-organic framework. This thing is a great breakthrough in quantum technology. The room-temperature quantum computers are the new things, that make the next revolution in quantum computing. This technology may come to markets sooner than we even think. The quantum computer is the tool, that requires advanced operating- and support systems.  When the support system sees that the quantum entanglement starts to reach energy stability. I
Post a Comment
Read more

Humans should be at the center of AI development.

"Experts advocate for human-centered AI, urging the design of technology that supports and enriches human life, rather than forcing humans to adapt to it. A new book featuring fifty experts from over twelve countries and disciplines explores practical ways to implement human-centered AI, addressing risks and proposing solutions across various contexts." (ScitechDaily, 50 Global Experts Warn: We Must Stop Technology-Driven AI) The AI is the ultimate tool for handling things that behave is predictable. Things like planets' orbiting and other mechanical things that follow certain natural laws are easy things for the AI. The AI might feel human, it can have a certain accent. And that thing is not very hard to program.  It just requires the accent wordbook, and then AI can transform grammatically following text into text with a certain accent. Then the AI drives that data to the speech synthesizer. The accent mode follows the same rules as language translation programs. The ac
Post a Comment
Read more