Time-Stretched Spectroscopy by the Quantum Zeno Effect: The Case of Auger Decay

E. Viñas Boström; M. Gisselbrecht; T. Brage; C. O. Almbladh; A. Mikkelsen; C. Verdozzi

doi:10.1103/PhysRevLett.121.233201

Time-Stretched Spectroscopy by the Quantum Zeno Effect: The Case of Auger Decay

E. Viñas Boström, M. Gisselbrecht, T. Brage, C. O. Almbladh, A. Mikkelsen, C. Verdozzi

Forskningsoutput: Tidskriftsbidrag › Artikel i vetenskaplig tidskrift › Peer review

Sammanfattning

A tenet of time-resolved spectroscopy is "faster laser pulses for shorter timescales". Here, we suggest turning this paradigm around, and slowing down the system dynamics via repeated measurements, to do spectroscopy on longer timescales. This is the principle of the quantum Zeno effect. We exemplify our approach with the Auger process, and find that repeated measurements increase the core-hole lifetime, redistribute the kinetic energy of Auger electrons, and alter entanglement formation. We further provide an explicit experimental protocol for atomic Li, to make our proposal concrete.

Originalspråk	engelska
Artikelnummer	233201
Tidskrift	Physical Review Letters
Volym	121
Nummer	23
DOI	https://doi.org/10.1103/PhysRevLett.121.233201
Status	Published - 2018

Ämnesklassifikation (UKÄ)

Atom- och molekylfysik och optik
Den kondenserade materiens fysik

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10.1103/PhysRevLett.121.233201

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abstract = "A tenet of time-resolved spectroscopy is {"}faster laser pulses for shorter timescales{"}. Here, we suggest turning this paradigm around, and slowing down the system dynamics via repeated measurements, to do spectroscopy on longer timescales. This is the principle of the quantum Zeno effect. We exemplify our approach with the Auger process, and find that repeated measurements increase the core-hole lifetime, redistribute the kinetic energy of Auger electrons, and alter entanglement formation. We further provide an explicit experimental protocol for atomic Li, to make our proposal concrete.",

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AU - Mikkelsen, A.

AU - Verdozzi, C.

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AB - A tenet of time-resolved spectroscopy is "faster laser pulses for shorter timescales". Here, we suggest turning this paradigm around, and slowing down the system dynamics via repeated measurements, to do spectroscopy on longer timescales. This is the principle of the quantum Zeno effect. We exemplify our approach with the Auger process, and find that repeated measurements increase the core-hole lifetime, redistribute the kinetic energy of Auger electrons, and alter entanglement formation. We further provide an explicit experimental protocol for atomic Li, to make our proposal concrete.

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Time-Stretched Spectroscopy by the Quantum Zeno Effect: The Case of Auger Decay

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