Search by tag «Physical Review Letters» 20 results

• Time-Optimal Transfer of Quantum State Achieved by ITMO Physicists

  Efficient control of interconnected qubits is one of the most frequent hurdles for today’s quantum computer developers. Scientists from ITMO University and the London Institute for Mathematical Sciences have proposed an elegant solution to the issue: they have calculated the fastest way to transfer a quantum state over a large chain of qubits. The study is supported by the Russian Science Foundation and published in Physical Review Letters.

  11.07.2025

• ITMO Physicists Propose a New Method for Studying Ultrafast Magnetization Oscillations

  Researchers from ITMO University, along with Nobel laureate Frank Wilczek, have suggested using low-frequency signals to study ultrafast magnetization oscillations in magnetic materials. The technology makes it possible to examine processes that are difficult to observe via other methods. The results of the study, supported by and ITMO’s 2030 Development Strategy and the Russian Science Foundation, were published in Physical Review Letters.

  24.06.2025

• ITMO Researchers Discover New Type of Singularity – Exceptional Bound States in the Continuum

  A team of scientists from Russia, China, Austria, and the UK have found a new, previously considered impossible type of singularity, namely exceptional bound states in the continuum. The finding opens the door to producing energy-efficient optical transistors, modulators, and switches, as well as next-gen ultrasensitive sensors that can detect viruses and proteins more effectively. The results of the study were published in Physical Review Letters.

  20.03.2025

• New Method of Quantum Entanglement Generation Suggested at ITMO

  The university’s scientists have come up with a versatile way to generate quantum correlations and entanglements that makes it possible to dynamically change the system’s parameters and tweak photon characteristics such as bunching and antibunching. This study paves the way towards coding entangled states in superconducting qubits and processing quantum information on next-gen optical chips.

  11.01.2023

• ITMO Scientists Design a Model to Protect Quantum Computing From Disorder

  Scientists from ITMO’s School of Physics and Engineering have predicted that topological states that occur in a two-dimensional array of superconducting qubits make the system robust to disorders. This may allow scientists to make certain algorithms of quantum computing resilient to defects in the structure, which opens up new opportunities for the design of superconducting quantum processors.

  31.05.2022

• ITMO Physicists Prove Feasibility of Non-Radiating States in Compact Acoustic Resonators: New Discovery Will Benefit Development of Acoustic Antennas and Sensors

  Researchers from ITMO University’s Faculty of Physics have succeeded in disproving a non-existence theorem which states that oscillations in open resonance systems must fade out by radiating energy into the surrounding medium. The physicists were able to calculate the shapes of acoustic resonators for which this theorem would not apply. In the resulting system, the energy of oscillations does not radiate into the surrounding space and remains within the resonator. Results of this research will facilitate the development of acoustic antennas and sensors.

  25.02.2022

• International Team Develop Non-Radiating Electromagnetic Source

  The proposed structure allows to generate electromagnetic fields without dissipating any energy into the surrounding environment. This type of electromagnetic source will pave the way for technological breakthroughs, such as highly efficient wireless power transfer systems, high-precision sensors, and RFID technology.

  30.08.2021

• ITMO Physicists Discover New Physical Effect

  The scientists called it the anomalous exciton Hall effect. It occurs when a laser affects a semiconductor plate in the presence of a magnetic field. This phenomenon can be potentially used for studying exciton quasiparticles. The research is published in Physical Review Letters.

  26.01.2021

• ITMO Scientists Propose Systems With Unique Interaction Between Photons and Mechanical Motion of Atoms

  The researchers managed to demonstrate that such systems possess the features of non-typical phase transitions, nonstandard symmetry, and its spontaneous breaking in a strong optomechanical interaction regime. This invention may potentially help scientists develop memory chips for future quantum computers.

  19.01.2021

• ITMO University Researchers Predict New Quantum Phase of Matter in Chains of Oscillating Atoms

  The results of this research can be used to control the properties of light and matter and to create quantum memory.

  05.11.2020