Entropic costs of extracting classical ticks from a quantum clock

Vivek Wadhia; Florian Meier; Federico Fedele; Ralph Silva; Nuriya Nurgalieva; David Craig; Daniel Jirovec; Jaime Saez-Mollejo; Andrea Ballabio; Daniel Chrastina; Giovanni Isella; Marcus Huber; Mark T Mitchison; Paul Erker; Natalia Ares

Entropic costs of extracting classical ticks from a quantum clock

ORAL

Abstract

We experimentally realize a quantum clock by using a charge sensor to count charges tunneling through a double quantum dot (DQD). Individual tunneling events are used as the clock's ticks. We quantify the clock's precision while measuring the power dissipated by the DQD and, separately, the charge sensor in both direct-current and radio-frequency readout modes. This allows us to probe the thermodynamic cost of creating ticks microscopically and recording them macroscopically. Our experiment is the first to explore the interplay between the entropy produced by a microscopic clockwork and its macroscopic measurement apparatus. We show that the latter contribution not only dwarfs the former but also unlocks greatly increased precision, because the measurement record can be exploited to optimally estimate time even when the DQD is at equilibrium. Our results suggest that the entropy produced by the amplification and measurement of a clock's ticks, which has often been ignored in the literature, is the most important and fundamental thermodynamic cost of timekeeping at the quantum scale.

^*V. W. acknowledges UK Research and Innovation Grant No. EP/T517811/1. 337 F. M., M. H., P. E. acknowledge funding from the European Research Council (Consolidator Grant “Cocoquest” No. 101043705). M. H., P. E. acknowledge funding from the Austrian Federal Ministry of Education, Science, and Research via Austrian Research Promotion Agency (FFG) through Quantum Austria. R. S. is funded from the Swiss National Science Foundation via an Ambizione Grant No. PZ00P2_185986. M. T. M. is supported by a Royal Society University Research Fellowship. N. A. acknowledges support from the European Research Council (Grant Agreement No, 948932) and the Royal Society (No. URF-R1-191150). This project is cofunded by the European Union (Quantum Flagship project ASPECTS, Grant Agreement No. 101080167) and UK Research and Innovation (UKRI). Views and opinions expressed are however those of the authors only and do not necessarily reflect those of the European Union, Research Executive Agency or UKRI. Neither the European Union nor UKRI can be held responsible for them.

March 19, 2026, 6:06 PM – March 19, 2026, 6:18 PM

Publication: V. Wadhia, F. Meier, F. Fedele, R. Silva, N. Nurgalieva, D. L. Craig, D. Jirovec, J. Saez-Mollejo, A. Ballabio, D. Chrastina, G. Isella, M. Huber, M. T. Mitchison, P. Erker and N. Ares, Entropic costs of extracting classical ticks from a quantum clock, Phys. Rev. Lett. (2025)

Presenters

Vivek Wadhia
- University of Oxford

Authors

Vivek Wadhia
- University of Oxford
Florian Meier
- TU Wien
Federico Fedele
- University of Oxford
Ralph Silva
- ETH Zurich
Nuriya Nurgalieva
- ETH Zurich
David Craig
- University of Oxford
Daniel Jirovec
- TU Delft
Jaime Saez-Mollejo
- IST Austria
Andrea Ballabio
- Politecnico di Milano
Daniel Chrastina
- Politecnico di Milano
Giovanni Isella
- Politecnico di Milano
Marcus Huber
- TU Wien
- Technical University of Vienna
Mark T Mitchison
- Trinity College Dublin
Paul Erker
- Atominstitut (TU Wien) & IQOQI Vienna (ÖAW)
Natalia Ares
- University of Oxford