Frontiers of quantum physics

Ultraviolet nanophotonics enables autofluorescence correlation spectroscopy on label-free proteins with a single tryptophan

Nano Letters 23 (2), 497-504

Authors:

Prithu Roy, Jean-Benoît Claude, Sunny Tiwari, Aleksandr Barulin, Jérôme Wenger

Abstract:

Experimental quantum computational chemistry with optimised unitary coupled cluster ansatz

ArXiv 2212.08006 (2022)

Authors:

Shaojun Guo, Jinzhao Sun, Haoran Qian, Ming Gong, Yukun Zhang, Fusheng Chen, Yangsen Ye, Yulin Wu, Sirui Cao, Kun Liu, Chen Zha, Chong Ying, Qingling Zhu, He-Liang Huang, Youwei Zhao, Shaowei Li, Shiyu Wang, Jiale Yu, Daojin Fan, Dachao Wu, Hong Su, Hui Deng, Hao Rong, Yuan Li, Kaili Zhang, Tung-Hsun Chung, Futian Liang, Jin Lin, Yu Xu, Lihua Sun, Cheng Guo, Na Li, Yong-Heng Huo, Cheng-Zhi Peng, Chao-Yang Lu, Xiao Yuan, Xiaobo Zhu, Jian-Wei Pan

Simple and high-precision Hamiltonian simulation by compensating Trotter error with linear combination of unitary operations

ArXiv 2212.04566 (2022)

Authors:

Pei Zeng, Jinzhao Sun, Liang Jiang, Qi Zhao

Entanglement in a qubit-qubit-tardigrade system

New Journal of Physics IOP Publishing 24:12 (2022) 123024

Authors:

KS Lee, YP Tan, LH Nguyen, RP Budoyo, KH Park, C Hufnagel, YS Yap, N Møbjerg, V Vedral, T Paterek, R Dumke

Irreversibility beyond Landauer’s principle: is it possible to perform erasure using the quantum homogenizer?

New Journal of Physics IOP Publishing 24:11 (2022) 113030-113030

Authors:

Maria Violaris, Chiara Marletto

Abstract:

Abstract Erasure is fundamental for information processing. It is also key in connecting information theory and thermodynamics, as it is a logically irreversible task. We provide a new angle on this connection, noting that there may be an additional cost to erasure, that is not captured by standard results such as Landauer’s principle. To make this point we use a model of irreversibility based on constructor theory—a recently proposed generalization of the quantum theory of computation. The model uses a machine called the ‘quantum homogenizer’, which has the ability to approximately realise the transformation of a qubit from any state to any other state and remain approximately unchanged, through overall entirely unitary interactions. We argue that when performing erasure via quantum homogenization there is an additional cost to performing the erasure step of the Szilard’s engine, because it is more difficult to reliably produce pure states in a cycle than to produce maximally mixed states. We also discuss the implications of this result for the cost of erasure in more general terms.