A new paper unravels the mysteries of a bizarre physical state known as the pseudogap, which has close ties to the sought-after state called high-temperature superconductivity, in which electrical resistance disappears.

A research team led by Professor Monika Aidelsburger and Professor Immanuel Bloch from the LMU Faculty of Physics has investigated this question concerning quantum many-body systems and found indications that they can be described macroscopically through simple diffusion equations with random noise. The study was recently published in the journal Nature Physics.

Aliro today announced an agreement with the Air Force Research Laboratory (AFRL) to provide software and professional services that will enable AFRL to simulate, test, and operate entanglement-based quantum network infrastructure, including the innovative work of networking quantum computers with heterogeneous qubit platforms.

Physicists at the University of Bonn and the University of Kaiserslautern-Landau (RPTU) have created a one-dimensional gas out of light. This has enabled them to test theoretical predictions about the transition into this exotic state of matter for the first time. The method used in the experiment by the researchers could be used for examining quantum effects. The results have been published in the journal “Nature Physics.”

In recent theoretical research, Ge and collaborators Jiru Liu and M. Suhail Zubairy, members of the Institute for Quantum Science and Engineering at Texas A&M University, explored the relationship between the two fundamental resources to quantum physics. They established a single way to quantify the two properties, defining a mathematical description of each. Their paper, “Classical-Nonclassical Polarity of Gaussian States,” was published in the prestigious Physical Review Letters.

QuiX Quantum, the European leader in photonic quantum computing hardware, is pleased to announce the appointment of Basil Garabet to its Supervisory Board. With over four decades in the photonics industry, Basil brings a wealth of experience and expertise to QuiX Quantum.

Although systems consisting of many interacting small particles can be highly complex and chaotic, some can nonetheless be described using simple theories. Does this also pertain to the world of quantum physics? A research team led by Professor Monika Aidelsburger and Professor Immanuel Bloch from the LMU Faculty of Physics investigated this question concerning quantum many-body systems and found indications that they can be described macroscopically through simple diffusion equations with random noise. The study was recently published in the journal Nature Physics.

Scientists at EPFL, the Helmholtz-Zentrum Berlin and Freie Universität Berlin have uncovered intriguing insights into the magnetic properties of a complex material that dances on the edge of quantum spin liquid behavior. The discovery could have far-reaching implications for our understanding of quantum materials and their potential technological applications.

An NAU physicist is spearheading groundbreaking new quantum physics research, a field with the potential to revolutionize computing, communication, security and sensing on a global scale.

A research traineeship program developed by a team of Rice University faculty led by Junichiro Kono has received an award of $3 million over five years from the National Science Foundation (NSF) to equip a new generation of scientists and engineers with the skills needed to serve as leaders in quantum technology innovation.