Connect with us

Hi, what are you looking for?

science

nouvelle étape de la matière

nouvelle étape de la matière
Illustration d'une nouvelle étape

Les physiciens ont découvert une nouvelle phase de la matière, « l’état liquide chiral de Bose ». Cet état, découvert en explorant les frustrations cinétiques dans les systèmes quantiques, présente de fortes propriétés telles que le spin électronique immuable et l’intrication à longue distance. La découverte, qui nécessite des champs magnétiques élevés pour l’observation, élargit notre compréhension du monde physique et pourrait avoir des applications dans le codage tolérant aux pannes des données numériques.

Pour les physiciens expérimentaux, la frustration quantique conduit à une découverte fondamentale

Un « état liquide bose-chiral » est une nouvelle phase de la matière, selon le professeur UMass Amherst.

Une équipe de physiciens, dont le professeur associé à l’Université du Massachusetts Tigran Sedrakian, a récemment annoncé dans la revue nature Ils ont découvert une nouvelle phase de la matière. Appelée l’état chiral du fluide de Bose, cette découverte ouvre une nouvelle voie dans l’ancien effort pour comprendre la nature du monde physique.

Dans les conditions de tous les jours, la matière peut être solide, liquide ou gazeuse. Mais une fois que vous vous aventurez au-delà de chaque jour – les températures approchent[{ » attribute= » »>absolute zero, things smaller than a fraction of an atom or which have extremely low states of energy—the world looks very different. “You find quantum states of matter way out on these fringes,” says Sedrakyan, “and they are much wilder than the three classical states we encounter in our everyday lives.”

Sedrakyan has spent years exploring these wild quantum states, and he is particularly interested in the possibility of what physicists call “band degeneracy,” “moat bands” or “kinetic frustration” in strongly interacting quantum matter.

Moat Band Rendering

Rendering of the moat band, which frustrates particles and leads to the chiral bose-liquid state. Credit: Tigran Sedrakyan

Typically, particles in any system bump into each other, and in so doing they cause predictable effects, like billiard balls knocking into each other and then reacting in a predictable pattern. In other words, the effects and the particles are correlated. But in a frustrated quantum system, there are infinite possibilities that stem from the interaction of particles—perhaps the billiard ball levitates or zooms off at an impossible angle—and some of these infinite possibilities can lead to novel quantum states.

What Sedrakyan and his colleagues have done is to engineer a frustration machine: a bilayer semiconducting device. The top layer is electron-rich, and these electrons can move freely. The bottom layer is filled with “holes,” or places that a roving electron can occupy. Then the two layers are brought extremely close together—interatomic close.

If the number of electrons in the top layer and holes in the bottom layer were equal, then you would expect to see the particles acting in a correlated manner, but Sedrakyan and his colleagues designed the bottom layer so that there is a local imbalance between the number of electrons and holes in the bottom layer. “It’s like a game of musical chairs,” Sedrakyan says, “designed to frustrate the electrons. Instead of each electron having one chair to go to, they must now scramble and have many possibilities in where they ‘sit’”.

This frustration kicks off the novel chiral edge state, which has a number of surprising characteristics. For instance, if you cool quantum matter in a chiral state down to absolute zero, the electrons freeze into a predictable pattern, and the emergent charge-neutral particles in this state will all either spin clockwise or counterclockwise. Even if you smash another particle into one of these electrons, or you introduce a magnetic field, you can’t alter its spin—it’s surprisingly robust and can even be used to encode digital data in a fault-tolerant way.

Even more surprising is what happens when an outside particle does smash into one of the particles in the chiral edge state. To return to the billiard-ball metaphor, you would expect to send the eight-ball flying when the cue ball smacks into it. But if the pool balls were in a chiral bose-liquid state, all 15 of them would react in exactly the same way when the eight-ball was struck. This effect is due to the long-range entanglement present in this quantum system.

It is difficult to observe the chiral bose-liquid state, which is why it has remained hidden for so long. To do so, the team of scientists, including theoretical physicists Rui Wang and Baigeng Wang (both of Nanjing University) as well as experimental physicists Lingjie Du (Nanjing University) and Rui-Rui Du (Peking University) designed a theory and an experiment that used an extremely strong magnetic field that is capable of measuring the movements of the electrons as they race for chairs.

“On the edge of the semiconductor bilayer, electrons and holes move with the same velocities,” says Lingjie Du. “This leads to helical-like transport, which can be further modulated by external magnetic fields as the electron and hole channels are gradually separated under higher fields.” The magneto-transport experiments therefore successfully reveal the first piece of evidence of the chiral bose-liquid, which the authors also call the “excitonic topological order” in the published paper.

Reference: “Excitonic topological order in imbalanced electron–hole bilayers” by Rui Wang, Tigran A. Sedrakyan, Baigeng Wang, Lingjie Du and Rui-Rui Du, 14 June 2023, Nature.
DOI: 10.1038/s41586-023-06065-w

This work was supported by the National Key R&D Program of China, the National Natural Science Foundation of China, the Program for Innovative Talents and Entrepreneurs in Jiangsu, the Xiaomi Foundation, the Chinese Academy of Sciences, and the National Science Foundation.

READ  Des neuroscientifiques découvrent une nouvelle fonction du cervelet : la mémoire émotionnelle
Click to comment

Leave a Reply

Votre adresse e-mail ne sera pas publiée. Les champs obligatoires sont indiqués avec *

You May Also Like

Tech

C’est enfin là ! La conférence mondiale annuelle des développeurs d’Apple débutera lundi avec le discours d’ouverture traditionnel à 10h00 PST. Lors de cet...

Tech

F-Zero GX (Dauphin) sur Steam Deck (image: Via Twitter) Valve vient de sortir le Steam Deck – un nouvel ordinateur portable de jeu. Il...

Uncategorized

Est-ce le début de la fin de la norme de recharge des véhicules électriques CHAdeMO? Ses jours sont définitivement comptés, du moins en France....

World

biélorusse la sprinteuse Kristina Tsimanskaya Jeudi, elle a déclaré qu’elle avait pris la décision de fuir Tokyo en Pologne après avoir reçu des avertissements...

Copyright © 2020 ZoxPress Theme. Theme by MVP Themes, powered by WordPress.