Loschmidt echo in many-spin systems: contrasting time scales of local and global measurements
A local excitation in a quantum many-spin system evolves deterministically. A time-reversal procedure, involving the inversion of the signs of every energy and interaction, should produce the excitation revival. This idea, experimentally coined in nuclear magnetic resonance, embodies the concept of...
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| Published in: | Philosophical transactions of the Royal Society of London. Series A: Mathematical, physical, and engineering sciences Vol. 374; no. 2069; pp. 1 - 15 |
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| Main Authors: | , , , |
| Format: | Journal Article |
| Language: | English |
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THE ROYAL SOCIETY
13-06-2016
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| Abstract | A local excitation in a quantum many-spin system evolves deterministically. A time-reversal procedure, involving the inversion of the signs of every energy and interaction, should produce the excitation revival. This idea, experimentally coined in nuclear magnetic resonance, embodies the concept of the Loschmidt echo (LE). While such an implementation involves a single spin autocorrelation M1,1, i.e. a local LE, theoretical efforts have focused on the study of the recovery probability of a complete many-body state, referred to here as global or many-body LE MMB. Here, we analyse the relation between these magnitudes, with regard to their characteristic time scales and their dependence on the number of spins N. We show that the global LE can be understood, to some extent, as the simultaneous occurrence of N independent local LEs, i.e. MMB ∼ (M1,1)N/4. This extensive hypothesis is exact for very short times and confirmed numerically beyond such a regime. Furthermore, we discuss a general picture of the decay of M1,1 as a consequence of the interplay between the time scale that characterizes the reversible interactions (T2) and that of the perturbation (τΣ). Our analysis suggests that the short-time decay, characterized by the time scale τΣ, is greatly enhanced by the complex processes that occur beyond T2. This would ultimately lead to the experimentally observed T3, which was found to be roughly independent of τΣ but closely tied to T2. |
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| AbstractList | A local excitation in a quantum many-spin system evolves deterministically. A time-reversal procedure, involving the inversion of the signs of every energy and interaction, should produce the excitation revival. This idea, experimentally coined in nuclear magnetic resonance, embodies the concept of the Loschmidt echo (LE). While such an implementation involves a single spin autocorrelation M1,1, i.e. a local LE, theoretical efforts have focused on the study of the recovery probability of a complete many-body state, referred to here as global or many-body LE MMB. Here, we analyse the relation between these magnitudes, with regard to their characteristic time scales and their dependence on the number of spins N. We show that the global LE can be understood, to some extent, as the simultaneous occurrence of N independent local LEs, i.e. MMB ∼ (M1,1)N/4. This extensive hypothesis is exact for very short times and confirmed numerically beyond such a regime. Furthermore, we discuss a general picture of the decay of M1,1 as a consequence of the interplay between the time scale that characterizes the reversible interactions (T2) and that of the perturbation (τΣ). Our analysis suggests that the short-time decay, characterized by the time scale τΣ, is greatly enhanced by the complex processes that occur beyond T2. This would ultimately lead to the experimentally observed T3, which was found to be roughly independent of τΣ but closely tied to T2. |
| Author | Bendersky, Denise Pastawski, Horacio M. Zangara, Pablo R. Levstein, Patricia R. |
| Author_xml | – sequence: 1 givenname: Pablo R. surname: Zangara fullname: Zangara, Pablo R. – sequence: 2 givenname: Denise surname: Bendersky fullname: Bendersky, Denise – sequence: 3 givenname: Patricia R. surname: Levstein fullname: Levstein, Patricia R. – sequence: 4 givenname: Horacio M. surname: Pastawski fullname: Pastawski, Horacio M. |
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| ContentType | Journal Article |
| Copyright | The Royal Society, 2016 |
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| Snippet | A local excitation in a quantum many-spin system evolves deterministically. A time-reversal procedure, involving the inversion of the signs of every energy and... |
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| SubjectTerms | Autocorrelation Chaos theory Energy Entropy Mathematical moments Nuclear magnetic resonance Quantum decoherence Quantum mechanics Thermodynamics Time dependence |
| Title | Loschmidt echo in many-spin systems: contrasting time scales of local and global measurements |
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