March 29, 2024

Physicists Build Mathematical “Playground” To Study Quantum Information Theory

By “mistake” we suggest any unexpected or unwanted interaction which scrambles details over an extended location. Error correcting codes are mathematical procedures that enable collecting these pieces together to recuperate the initial info. Quantum error remedying codes play a comparable role in cases when the quantum nature of the physical system is crucial,” Anatoly Dymarsky, Associate Professor at the Skoltech Center for Energy Science and Technology (CEST), discusses.
In a rather unforeseen twist, scientists realized not too long ago that quantum gravity– the theory describing quantum characteristics of area and time– operates comparable mathematical procedures to exchange info between various parts of area. “The area of details within quantum gravity stays one of the few open fundamental issues in theoretical physics.
In their brand-new paper, he and his colleague, Alfred Shapere from the University of Kentucky Department of Physics and Astronomy, develop an unique connection in between quantum mistake correcting codes and two-dimensional conformal field theories. The latter describe interactions of quantum particles and have actually ended up being basic theoretical tools to describe several phenomena, from basic elementary particles to quasi-particles emerging in quantum products, such as graphene. A few of these conformal field theories also describe quantum gravity by means of holographic correspondence.
” Now we have a brand-new playground to study the function of quantum error correcting codes in the context of quantum field theory. We hope this is a primary step in comprehending how area of details really works, and what conceals behind all this stunning mathematics,” Dymarsky concludes.
Reference: “Solutions of Modular Bootstrap Constraints from Quantum Codes” by Anatoly Dymarsky and Alfred Shapere, 21 April 2021, Physical Review Letters.DOI: 10.1103/ PhysRevLett.126.161602.

In a brand-new research study from Skoltech and the University of Kentucky, scientists found a brand-new connection between quantum details and quantum field theory. This work vouches for the growing function of quantum details theory throughout different locations of physics. The paper was published in the journal Physical Review Letters.
Quantum information plays an increasingly important function as an organizing concept linking different branches of physics. In specific, the theory of quantum error correction, which describes how to safeguard and recover info in quantum computers and other complex communicating systems, has actually turned into one of the foundation of the contemporary understanding of quantum gravity.

In a brand-new research study from Skoltech and the University of Kentucky, researchers discovered a new connection between quantum information and quantum field theory. Quantum error correcting codes play a similar role in cases when the quantum nature of the physical system is crucial,” Anatoly Dymarsky, Associate Professor at the Skoltech Center for Energy Science and Technology (CEST), explains.
In a rather unexpected twist, researchers understood not too long ago that quantum gravity– the theory explaining quantum dynamics of area and time– operates similar mathematical procedures to exchange information between different parts of space. The latter explain interactions of quantum particles and have actually ended up being basic theoretical tools to describe many various phenomena, from essential elementary particles to quasi-particles emerging in quantum products, such as graphene.