"A groundbreaking study has revealed how quantum light behaves at abrupt temporal boundaries, opening the door to an entirely new realm of optics—four-dimensional quantum optics. Researchers observed phenomena that could reshape quantum technology, from photon-pair creation to quantum state freezing. Credit: SciTechDaily.com" (ScitechDaily, Scientists Bend Light Through Time in a Quantum Leap)
"A recent study from the University of Eastern Finland (UEF) examines how photons—the fundamental particles of light—behave when they encounter sudden changes in a material’s properties over time. This research reveals intriguing quantum optical effects that could advance quantum technology and help establish an emerging field known as four-dimensional quantum optics." (ScitechDaily, Scientists Bend Light Through Time in a Quantum Leap)
There is one interesting thing in light. There is no time in photons. Theoretically, the photon can store information forever. The problem is how to get information out from those photons and turn that data into understandable form.
That ability makes it possible to create new 4D optics. The 4D optics means. Quantum optics have a dimension in time. Photons that are trapped in the structure can store information that travels to it. The problem is how to control that process.
And then deliver it when the system wants. This means that the photons must be put on the lattice. Then the system must make radiation or information affect them. And then the system locks energy into those photons. The idea is that the photons deliver information stored in them. When energy pumping ends.
The light curve with the extremely long curve allows researchers to bring data from the past to the future. Photons must only trap information in them. And then the light must travel only a couple of light years when it comes to the sensor. This thing makes it possible to send information from the past to the future.
Theoretically, this system requires a mirror that is let's say 1 light-year from Earth. The system shoots photons to that mirror. From a laboratory on Earth. Then the mirror returns that data to the sensor which can be in the room where data is transmitted. Another way is to use a light spiral whose length is 2 ly. That allows people to transport information to 2 years away into the future in the form of light.
Things like photonic towers can store data through time. The photon tower can be layers of the photons. The system makes the new photon layer after a certain time. The thing is that photonics is not a very old technology.
The problem with this tool is that. There must be similar structures between transmitter and receiving particles in quantum entanglement. The quantum entanglement requires that the receiving and transmitting particles are identical except their energy levels are different.
The thing that makes the photon-size "Kugelblitz"-black holes interesting is that they can bring information from the future to the past. Theoretically, the quantum computer that can make the Kugelblitz black holes can bring information over time. The system can use the photons that are trapped in the Tipler cylinder.
The fast-rotating plasma dilates time in the cylinder. Then the photons that are trapped in the frame get energy impacts. The system can simply be the camera that looks at the TV. Then the system uses superpositioned and entangled photons to transmit information to the past.
There can be many applications in that system. The most fascinating version is the 4D optics that can transmit information from the future to the past. The system can use the superpositioned and entangled photon pair.
The receiving part of that photon pair is at very low energy level. Then the system will transmit energy to the transmitting side. That allows to creation of a system that is like a net eye. When the photon's energy level rises they start to travel in time.
The superpositioned quantum entanglement makes it possible to transmit information from the future to the past. These kinds of systems are theoretical tools that open our view through time. And if they someday become reality they can make many things that we have never seen before possible.
https://scitechdaily.com/scientists-bend-light-through-time-in-a-quantum-leap/
https://en.wikipedia.org/wiki/Kugelblitz_(astrophysics)
https://en.wikipedia.org/wiki/Tipler_cylinder
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