Using bilayered graphene, physicists explore the possibility that our reality is only one half of a pair of interacting worlds.
Andrey Feldman
Andrey got his B.Sc. and M.Sc. degrees in elementary particle physics from Novosibirsk State University, and a Ph.D. in string theory from the Weizmann Institute of Science. Currently, he works as a science writer, specializing in physics, space, and technology.
The Unruh effect: Probing the structure of a vacuum
The impact of virtual particles on accelerating objects in a vacuum has never been observed, and a new thought experiment aims to rectify this.
Footprints of phase transitions in the early universe
Gravitational waves produced by the phase transitions of matter right after the Big Bang could provide new insights into particle physics.
The true colors of stars
Stars are depicted using different colors, but are they accurate? A new scientific color palette aims to put misrepresentations to rest.
How is spacetime altered by entangled particles?
A new thought experiment explores the interface between quantum mechanics and general relativity using the transfer of information.
Quantum advantage tested in quantum games
A set of quantum computers was put to the test by playing the notorious triangle game.
Physicists create a quantum domain wall in the lab
Researchers have discovered how to create and manipulate a quantum object called a “domain wall”, which exhibits particle-like properties.
Scientists have measured neutrino mass with record-breaking accuracy
Scientists have constrained the mass of neutrinos to less than 1 eV for the first time, breaking an important barrier in neutrino physics.
String theory fuzzballs resolve famous black hole paradox
Scientists have turned to string theory to better understand black holes, proposing they can be modeled as “fuzzballs” made up of interacting strings.
Black hole asymmetry puts quantum gravity to the test
Physicists hope to detect asymmetry in spinning black holes using NASA’s LISA telescope to finally provide proof of quantum gravity.