Joseph Tindall

About Me

I am a PostDoctoral Research Assistant in the Jaksch group, having recently completed my doctoral studies here at the University of Oxford.

About My Research

My research is focused on engineering complex states of matter in quantum many-body systems. I am interested in understanding how these systems can be guided away from stationary equilibrium ensembles — which are often characterised by short-range, decaying correlations — and into regimes where desirable properties such as long-range correlations and entanglement are manifest. Recently, my research has focused on exploring how this process can, counterintuitively, arise when a quantum system is subject to heating in the presence of certain symmetries. This mechanism of `heating-induced-order’ offers a novel pathway for realising ordered states such as supercondcutors in fermionic systems.

Research interests

Superconductivity

Strongly Correlated Systems

Computational Methods for Quantum Mechanics

Selected publications

Heating-Induced Long-Range η Pairing in the Hubbard Model

Physical Review Letters American Physical Society (APS) 123:3 (2019) 030603

J Tindall, B Buča, JR Coulthard, D Jaksch

Quantum synchronisation enabled by dynamical symmetries and dissipation

New Journal of Physics IOP Publishing 22 (2019) 013026

Joseph Tindall, CS Munoz, Berislav Buca, D Jaksch

Non-stationary coherent quantum many-body dynamics through dissipation

Nature Communications Nature Research (part of Springer Nature)

Berislav Buca, Joseph Tindall, Dieter Jaksch

Photo-molecular high temperature superconductivity

Physical Review X American Physical Society 10 (2020) 031028

M Buzzi, D Nicoletti, M Fechner, N Tancogne-Dejean, MA Sentef, A Georges, T Biesner, E Uykur, M Dressel, A Henderson, T Siegrist, JA Schlueter, K Miyagawa, K Kanoda, M-S Nam, Arzhang Ardavan, Jonathan Coulthard, Joseph Tindall, Frank Schlawin, Dieter Jaksch, Andrea Cavalleri

See all publications

Joseph Tindall

Research theme

Sub department