Los Alamos team reshapes quantum arrow of time

Researchers at Los Alamos National Laboratory have developed quantum control techniques that can make systems appear to reverse the flow of time. The work, published in Physical Review X, uses measurements and feedback to manipulate the perceived direction of time in quantum processes.

The team introduced protocols that suppress or invert the arrow of time in quantum systems such as qubits. By combining measurements with a control Hamiltonian, the methods cancel or overcorrect disturbances to produce trajectories consistent with time moving backward.

Physicist Luis Pedro García-Pintos said the fundamental laws of physics at the microscopic level treat forward and backward time movement as equivalent. The new tools allow researchers to manipulate this symmetry for novel control of quantum systems.

The approach also enables a measurement engine that harvests energy directly from the monitoring process. This could support future quantum batteries or improved state preparation methods.

The researchers plan to test the Hamiltonian-based feedback using superconducting qubits. The work received support from the U.S. Department of Energy and the National Science Foundation.

Makala yanayohusiana

Researchers at Los Alamos National Laboratory have developed a method to effectively reverse time in quantum systems, enabling energy harvesting for potential use in quantum batteries. The technique counteracts the effects of measurements on qubits, making systems appear to run backwards. This could turn measurements into a thermodynamic resource.

Imeripotiwa na AI

Physicists at MIT have developed a theoretical technique inspired by the film Interstellar to send messages backwards in time using quantum entanglement. The approach mimics closed time-like curves and surprisingly improves communication through noisy channels. While actual time travel remains impossible, the idea could enhance conventional systems.

Researchers have found a way to alter the direction of energy flow in turbulence, challenging a theory established in 1941. The work, conducted at the University of Pittsburgh with Italian collaborators, was published in Science Advances in 2025.

Imeripotiwa na AI

Scientists have developed a quantum chip that converts uncontrolled photon leaks into controllable signals. The approach enables tracking of lost quantum information through deliberate controlled leakage.

Alhamisi, 2. Mwezi wa saba 2026, 06:07:12

Wobbly time theory offers new path to unify gravity and quantum mechanics

Jumanne, 23. Mwezi wa sita 2026, 18:35:03

NASA's Cold Atom Lab resumes quantum experiments on space station

Alhamisi, 11. Mwezi wa sita 2026, 14:34:32

Toy universe experiment suggests time emerges from quantum interactions

Jumatano, 27. Mwezi wa tano 2026, 10:23:05

Researchers design first quantum grandfather clock

Jumapili, 24. Mwezi wa tano 2026, 07:26:49

Scientists observe atoms spinning backward in quantum experiment

Ijumaa, 22. Mwezi wa tano 2026, 18:01:59

Einstein-Rosen bridges may connect mirror versions of time

Alhamisi, 14. Mwezi wa tano 2026, 00:26:09

Japanese team develops method to detect quantum W states

Jumanne, 5. Mwezi wa tano 2026, 11:27:30

Researchers create exotic quantum states with timed magnetic fields

Jumapili, 3. Mwezi wa tano 2026, 09:23:39

Physicists uncover tiny flaw in time from quantum collapse models

Jumanne, 14. Mwezi wa nne 2026, 21:14:59

Quantum systems exhibit memory depending on perspective, scientists find

Tovuti hii inatumia vidakuzi

Tunatumia vidakuzi kwa uchambuzi ili kuboresha tovuti yetu. Soma sera ya faragha yetu kwa maelezo zaidi.
Kataa