@tanmaybhore.bsky.social
PhD student in theoretical quantum many-body physics at the University of Leeds.
https://sites.google.com/view/tanmaybhore/
https://sites.google.com/view/tanmaybhore/
Reposted
Our recent @physrevb.bsky.social Letter and Editors' Suggestion demonstrates the ubiquity of the quantum Mpemba effect in many types of quantum systems. Thanks to our PhD student @tanmaybhore.bsky.social and @ucstonecenter.bsky.social collaborators. @leverhulme.ac.uk journals.aps.org/prb/abstract...
September 26, 2025 at 4:47 PM
Our recent @physrevb.bsky.social Letter and Editors' Suggestion demonstrates the ubiquity of the quantum Mpemba effect in many types of quantum systems. Thanks to our PhD student @tanmaybhore.bsky.social and @ucstonecenter.bsky.social collaborators. @leverhulme.ac.uk journals.aps.org/prb/abstract...
🚨New paper alert🚨
A hot liquid can freeze faster than a cold liquid, a counterintuitive phenomenon called the Mpemba effect.
In our new paper, we argue that a quantum version of this effect is ubiquitous across a large variety of chaotic quantum systems.
arxiv.org/abs/2505.17181
A hot liquid can freeze faster than a cold liquid, a counterintuitive phenomenon called the Mpemba effect.
In our new paper, we argue that a quantum version of this effect is ubiquitous across a large variety of chaotic quantum systems.
arxiv.org/abs/2505.17181
May 26, 2025 at 11:41 AM
🚨New paper alert🚨
A hot liquid can freeze faster than a cold liquid, a counterintuitive phenomenon called the Mpemba effect.
In our new paper, we argue that a quantum version of this effect is ubiquitous across a large variety of chaotic quantum systems.
arxiv.org/abs/2505.17181
A hot liquid can freeze faster than a cold liquid, a counterintuitive phenomenon called the Mpemba effect.
In our new paper, we argue that a quantum version of this effect is ubiquitous across a large variety of chaotic quantum systems.
arxiv.org/abs/2505.17181
Reposted
Our featured article for April 2025
Quantum electrodynamics on a 1D lattice can lead to localization of charges, in contrast to the thermalizing dynamics. This study identifies the origin of such non-thermal signatures and attribute it to the fracturing of the underlying Hilbert space.
rdcu.be/el8h7
Quantum electrodynamics on a 1D lattice can lead to localization of charges, in contrast to the thermalizing dynamics. This study identifies the origin of such non-thermal signatures and attribute it to the fracturing of the underlying Hilbert space.
rdcu.be/el8h7
Hilbert space fragmentation at the origin of disorder-free localization in the lattice Schwinger model
Communications Physics - Quantum electrodynamics on a one-dimensional lattice can lead to the localization of charges, in contrast to the thermalizing dynamics ubiquitous in nature. In this work...
rdcu.be
May 15, 2025 at 8:32 AM
Our featured article for April 2025
Quantum electrodynamics on a 1D lattice can lead to localization of charges, in contrast to the thermalizing dynamics. This study identifies the origin of such non-thermal signatures and attribute it to the fracturing of the underlying Hilbert space.
rdcu.be/el8h7
Quantum electrodynamics on a 1D lattice can lead to localization of charges, in contrast to the thermalizing dynamics. This study identifies the origin of such non-thermal signatures and attribute it to the fracturing of the underlying Hilbert space.
rdcu.be/el8h7
Reposted
Delighted to announce our paper has just been published in Communications Physics - where we elucidate the mechanism behind some intriguing phenomena in the strong-coupling limit of a 1D lattice gauge theory.
@tanmaybhore.bsky.social @theoryleeds.bsky.social
www.nature.com/articles/s42...
⚛️🧪
@tanmaybhore.bsky.social @theoryleeds.bsky.social
www.nature.com/articles/s42...
⚛️🧪
April 18, 2025 at 5:08 PM
Delighted to announce our paper has just been published in Communications Physics - where we elucidate the mechanism behind some intriguing phenomena in the strong-coupling limit of a 1D lattice gauge theory.
@tanmaybhore.bsky.social @theoryleeds.bsky.social
www.nature.com/articles/s42...
⚛️🧪
@tanmaybhore.bsky.social @theoryleeds.bsky.social
www.nature.com/articles/s42...
⚛️🧪
New paper 🚨 arxiv.org/abs/2503.10761
Can quantum properties of black holes be realized in condensed matter models?
We show that a chiral spin-chain which naturally admits a black hole description, realizes the Hayden-Preskill quantum teleportation protocol and shows Hawking-like radiation!
Can quantum properties of black holes be realized in condensed matter models?
We show that a chiral spin-chain which naturally admits a black hole description, realizes the Hayden-Preskill quantum teleportation protocol and shows Hawking-like radiation!
Quantum teleportation between simulated binary black holes
The quantum description of a black hole predicts that quantum information hidden behind the event horizon can be teleported outside almost instantaneously. In this work, we demonstrate that a chiral s...
arxiv.org
March 18, 2025 at 10:05 AM
New paper 🚨 arxiv.org/abs/2503.10761
Can quantum properties of black holes be realized in condensed matter models?
We show that a chiral spin-chain which naturally admits a black hole description, realizes the Hayden-Preskill quantum teleportation protocol and shows Hawking-like radiation!
Can quantum properties of black holes be realized in condensed matter models?
We show that a chiral spin-chain which naturally admits a black hole description, realizes the Hayden-Preskill quantum teleportation protocol and shows Hawking-like radiation!