"Schematic image of a 2D sensor squeezed between two diamond anvils. Credit: Chong Zu, modified by SciTechDaily.com) (ScitechDaily, Scientists Develop “Unbreakable” Quantum Sensor Built to Survive 30,000 Atmospheres)
The quantum computer bases the quantum sensors. Those quantum sensors, called qubits, can work as a network. The morphing quantum neural network can be the most powerful computer that we have ever imagined.
The new and powerful technology can revolutionize quantum engineering forever. When we think about optical quantum computers. There, the system controls qubits using light. Those qubits hang between the conoids. The new materials allow replacement of those conoids using the physical conoids. Those conoids were made using the nano-sized diamonds. It is possible to create a system or a sensor. That can operate under pressure. 30,000 times greater than Earth's atmosphere.
"Scientists who study topological materials face a challenge — how to establish and maintain control of these unique quantum behaviors in a way that makes applications like quantum computing possible. In this experiment, Ames Laboratory Scientist Jigang Wang and his colleagues demonstrated that control by using light to steer quantum states in a Dirac semimetal. Credit: US Department of Energy, Ames Laboratory" (ScitechDaily, Discovery of Light-Induced Switching Mechanism Advances Optically Controlled Quantum Computation)
The quantum sensor is between those diamonds. That thing makes it possible. To create a room-temperature superconductor. Those sensors can be used as a quantum neural network. These kinds of systems can be used to create small and compact quantum computers, which require less space than ever before. High pressure raises the superconducting temperature. The system can make new quantum supercomputers closer to the table than ever before.
The quantum computer is not the same as the quantum sensor. Both of those systems use similar things. The quantum sensor uses the oscillation. In the low-energy atoms. Or, their quantum fields. The quantum computer transmits information between quantum points called qubits. The quantum neural network. Or a morphing quantum neural network. It is the system that transports information between quantum points. During that process, the system brings new information from outside the original data flow.
The quantum computer doesn’t need as high an accuracy as the ultra-sensitive quantum sensor. That observes things like gravitational waves. The quantum computer requires the superconductors. Because resistance in the wire destroys information. The superconductor allows for transport. Of information in its original form. Information is the wave that travels on the shell of a wire. The resistance creates standing waves that break the quantum information.
https://scitechdaily.com/discovery-of-light-induced-switching-mechanism-advances-optically-controlled-quantum-computation/
https://scitechdaily.com/performance-benchmark-advanced-for-quantum-computers/
https://scitechdaily.com/the-holy-grail-of-physics-scientists-discover-new-path-to-room-temperature-superconductors/
https://scitechdaily.com/this-quantum-electron-breakthrough-could-make-computers-faster-than-ever-before/
https://scitechdaily.com/scientists-develop-unbreakable-quantum-sensor-built-to-survive-30000-atmospheres/
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