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3. Dephasing-assisted transport in a tight-binding chain with a linear potential.

Author

Jacob, Samuel L., Bettmann, Laetitia P., Lacerda, Artur M., Zawadzki, Krissia, Clark, Stephen R., Goold, John, and Mendoza-Arenas, Juan José

Subjects
OSCILLATIONS, NOISE
Abstract

An environment interacting with a quantum system can enhance transport through the suppression of quantum effects responsible for localization. In this paper, we study the interplay between bulk dephasing and a linear potential in a boundary-driven tight-binding chain. A linear potential induces Wannier-Stark localization in the absence of noise, while dephasing induces diffusive transport in the absence of a tilt. We derive an approximate expression for the steady-state current as a function of both dephasing and tilt which closely matches the exact solution for a wide range of parameters. From it, we find that the maximum current occurs for a dephasing rate equal to the period of Bloch oscillations in the Wannier-Stark localized system. We also find that the current displays a maximum as a function of the system size, provided that the total potential tilt across the chain remains constant. Our results can be verified in current experimental platforms and represents a step forward in analytical studies of environment-assisted transport. [ABSTRACT FROM AUTHOR]

Published
2024
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6. Powering an autonomous clock with quantum electromechanics

Author

Culhane, Oisin, Kewming, Michael J., Silva, Alessandro, Goold, John, and Mitchison, Mark T.

Subjects
Quantum Physics, FOS: Physical sciences, Quantum Physics (quant-ph)
Abstract

We theoretically analyse an autonomous clock comprising a nanoelectromechanical system, which undergoes self-oscillations driven by electron tunnelling. The periodic mechanical motion behaves as the clockwork, similar to the swinging of a pendulum, while induced oscillations in the electrical current can be used to read out the ticks. We simulate the dynamics of the system in the quasi-adiabatic limit of slow mechanical motion, allowing us to infer statistical properties of the clock's ticks from the current auto-correlation function. The distribution of individual ticks exhibits a tradeoff between accuracy, resolution, and dissipation, as expected from previous literature. Going beyond the distribution of individual ticks, we investigate how clock accuracy varies over different integration times by computing the Allan variance. We observe non-monotonic features in the Allan variance as a function of time and applied voltage, which can be explained by the presence of temporal correlations between ticks. These correlations are shown to yield a precision advantage for timekeeping over the timescales that the correlations persist. Our results illustrate the non-trivial features of the tick series produced by nanoscale clocks, and pave the way for experimental investigation of clock thermodynamics using nanoelectromechanical systems., 10 pages, 8 figures

Published
2023

7. Variational Gibbs State Preparation on NISQ devices

Author

Consiglio, Mirko, Settino, Jacopo, Giordano, Andrea, Mastroianni, Carlo, Plastina, Francesco, Lorenzo, Salvatore, Maniscalco, Sabrina, Goold, John, and Apollaro, Tony J. G.

Subjects
Quantum Physics, Statistical Mechanics (cond-mat.stat-mech), FOS: Physical sciences, Quantum Physics (quant-ph), Condensed Matter - Statistical Mechanics
Abstract

The preparation of an equilibrium thermal state of a quantum many-body system on noisy intermediate-scale (NISQ) devices is an important task in order to extend the range of applications of quantum computation. Faithful Gibbs state preparation would pave the way to investigate protocols such as thermalization and out-of-equilibrium thermodynamics, as well as providing useful resources for quantum algorithms, where sampling from Gibbs states constitutes a key subroutine. We propose a variational quantum algorithm (VQA) to prepare Gibbs states of a quantum many-body system. The novelty of our VQA consists in implementing a parameterized quantum circuit acting on two distinct, yet connected, quantum registers. The VQA evaluates the Helmholtz free energy, where the von Neumann entropy is obtained via post-processing of computational basis measurements on one register, while the Gibbs state is prepared on the other register, via a unitary rotation in the energy basis. Finally, we benchmark our VQA by preparing Gibbs states of the transverse field Ising model and achieve remarkably high fidelities across a broad range of temperatures in statevector simulations. We also assess the performance of the VQA on IBM quantum computers, showcasing its feasibility on current NISQ devices., 12 pages, 8 figures

Published
2023

10. Thermodynamics of decoherence.

Author

Popovic, Maria, Mitchison, Mark T., and Goold, John

Subjects
THERMODYNAMICS, HAMILTONIAN systems, ELECTRON gas, OPTICAL lattices, ENTROPY
Abstract

We investigate the non-equilibrium thermodynamics of pure decoherence. In a pure decoherence process, the system Hamiltonian is a constant of motion and there is no direct energy exchange between the system and its surroundings. Nevertheless, the environment's energy is not generally conserved and in this work we show that this leads to non-trivial heat dissipation as a result of decoherence alone. This heat has some very distinctive properties: it obeys an integral fluctuation relation and can be interpreted in terms of the entropy production associated with populations in the energy eigenbasis of the initial state. We show that the heat distribution for a pure decoherence process is different from the distribution of work done by the initial system–bath interaction quench. Instead, it corresponds to a mixture of work distributions of cyclical processes, each conditioned on a state of the open system. Inspired by recent experiments on impurities in ultracold gases, we demonstrate our general results by studying the heat generated by the decoherence of a qubit immersed within a degenerate Fermi gas in the lowest band of a species-selective optical lattice. [ABSTRACT FROM AUTHOR]

Published
2023
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12. The role of quantum work statistics in many-body physics

Author

Goold, John, Plastina, Francesco, Gambassi, Andrea, and Silva, Alessandro

Subjects
Quantum Physics, Statistical Mechanics (cond-mat.stat-mech), FOS: Physical sciences, Quantum Physics (quant-ph), Condensed Matter - Statistical Mechanics
Abstract

In this contribution, we aim to illustrate how quantum work statistics can be used as a tool in order to gain insight on the universal features of non-equilibrium many-body systems. Focusing on the two point measurement approach to work, we first outline the formalism and show how the related irreversible entropy production may be defined for a unitary process. We then explore the physics of sudden quenches from the point of view of work statistics and show how the characteristic function of work can be expressed as the partition function of a corresponding classical statistical physics problem in a film geometry. Connections to the concept of fidelity susceptibility are explored along with the corresponding universal critical scaling. We also review how large deviation theory applied to quantum work statistics gives further insight to universal properties. The quantum-to- classical mapping turns out to have close connections with the historical problem of orthogonality catastrophe: we therefore discuss how this relationship may be exploited in order to experimentally extract quantum work statistics in many-body systems., As a chapter of: F. Binder, L. A. Correa, C. Gogolin, J. Anders, and G. Adesso (eds.), "Thermodynamics in the quantum regime - Recent Progress and Outlook", (Springer International Publishing)

Published
2018

13. Dynamical phase transitions, temporal orthogonality and the dynamics of observables in one dimensional ultra-cold quantum gases: from the continuum to the lattice

Author

Fogarty, Thom��s, Usui, Ayaka, Busch, Thomas, Silva, Alessandro, and Goold, John

Subjects
Quantum Physics, Quantum Gases (cond-mat.quant-gas), FOS: Physical sciences, Quantum Physics (quant-ph), Condensed Matter - Quantum Gases
Abstract

We investigate the dynamics of the rate function and of local observables after a quench in models which exhibit phase transitions between a superfluid and an insulator in their ground states. Zeros of the return probability, corresponding to singularities of the rate functions, have been suggested to indicate the emergence of dynamical criticality and we address the question of whether such zeros can be tied to the dynamics of physically relevant observables and hence order parameters in the systems. For this we first numerically analyze the dynamics of a hard-core boson gas in a one-dimensional waveguide when a quenched lattice potential is commensurate with the particle density. Such a system can undergo a pinning transition to an insulating state and we find non-analytic behavior in the evolution of the rate function which is indicative of dynamical phase transitions. In addition, we perform simulations of the time dependence of the momentum distribution and compare the periodicity of this collapse and revival cycle to that of the non-analyticities in the rate function: the two are found to be closely related only for deep quenches. We then confirm this observation by analytic calculations on a closely related discrete model of hard-core bosons in the presence of a staggered potential and find expressions for the rate function for the quenches. By extraction of the zeros of the Loschmidt amplitude we uncover a non-equilibrium timescale for the emergence of non-analyticities and discuss its relationship with the dynamics of the experimentally relevant parity operator., 8 pages, 6 figures, minor changes and some references added

Published
2017

14. Analysis of the conditional mutual information in ballistic and diffusive non-equilibrium steady-states.

Author

Malouf, William T B, Goold, John, Adesso, Gerardo, and Landi, Gabriel T

Subjects
*BALLISTIC conduction, *MARKOV processes, *QUANTUM theory
Abstract

The conditional mutual information (CMI) quantifies the amount of correlations shared between A and CgivenB. It therefore functions as a more general quantifier of bipartite correlations in multipartite scenarios, playing an important role in the theory of quantum Markov chains. In this paper we carry out a detailed study on the behavior of the CMI in non-equilibrium steady-states (NESS) of a quantum chain placed between two baths at different temperatures. These results are used to shed light on the mechanisms behind ballistic and diffusive transport regimes and how they affect correlations between different parts of a chain. We carry our study for the specific case of a 1D bosonic chain subject to local Lindblad dissipators at the boundaries. In addition, the chain is also subject to self-consistent reservoirs at each site, which are used to tune the transport between ballistic and diffusive. As a result, we find that the CMI is independent of the chain size L in the ballistic regime, but decays algebraically with L in the diffusive case. Finally, we also show how this scaling can be used to discuss the notion of local thermalization in non-equilibrium steady-states. [ABSTRACT FROM AUTHOR]

Published
2020
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15. Daemonic Ergotropy: Enhanced Work Extraction from Quantum Correlations

Author

Francica, Gianluca, Goold, John, Paternostro, Mauro, and Plastina, Francesco

Subjects
Quantum Physics, Statistical Mechanics (cond-mat.stat-mech), Physics, QC1-999, Electronic computers. Computer science, FOS: Physical sciences, QA75.5-76.95, Quantum Physics (quant-ph), Condensed Matter - Statistical Mechanics
Abstract

We investigate how the presence of quantum correlations can influence work extraction in closed quantum systems, establishing a new link between the field of quantum non-equilibrium thermodynamics and the one of quantum information theory. We consider a bipartite quantum system and we show that it is possible to optimise the process of work extraction, thanks to the correlations between the two parts of the system, by using an appropriate feedback protocol based on the concept of ergotropy. We prove that the maximum gain in the extracted work is related to the existence of quantum correlations between the two parts, quantified by either quantum discord or, for pure states, entanglement. We then illustrate our general findings on a simple physical situation consisting of a qubit system., 7 pages, 3 figures; RevTeX4

Published
2016
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16. Quantum Entanglement for Systems of Identical Bosons. II Spin Squeezing and Other Entanglement Tests

Author

Dalton, Bryan, Goold, John, Garraway, Barry, and Reid, Margaret

Subjects
Quantum Physics, FOS: Physical sciences, Quantum Physics (quant-ph)
Abstract

These two accompanying papers treat two mode entanglement for systems of identical massive bosons and the relationship to spin squeezing and other quantum correlation effects. Entanglement is a key quantum feature of composite systems where the probabilities for joint measurements on the composite sub-systems are no longer determined from measurement probabilities on the separate sub-systems. We focus on the meaning of entanglement, the quantum paradoxes associated with entangled states, and important tests that allow an experimentalist to determine whether a quantum state - in particular, one for massive bosons is entangled. Our tests for entanglement fully utilise the symmetrisation principle and super-selection rules for bosonic massive particles. These papers provides detailed arguments necessary for the conclusions of a recent paper which presented results for rigorously demonstrating the entanglement of a two-mode Bose-Einstein condensate (BEC). In the first paper (I), we discuss the meaning of entanglement for systems of identical particles. For such systems, the relevant quantum density operators must satisfy the symmetrisation principle and global and local super-selection rules prohibiting states in which there are coherences between differing particle numbers. We fully justify these requirements. In the second quantisation approach, both the system and sub-systems are modes (or sets of modes) rather than particles, particles being associated with different mode occupancies. In the accompanying review paper (II), we consider spin squeezing and other tests for entanglement for two-mode bosonic systems. Starting from paper (I) we determine which tests are useful for detecting entanglement in massive bosonic (BEC), as opposed to photonic, systems. Several new inequalities are derived, and recent key experiments are analysed., 131 pages, 7 figures. This version of paper 2 has been extensively rewritten, with some new sections added. It has also been submitted for publication. arXiv admin note: text overlap with arXiv:1305.0788

Published
2015

17. Quantum Entanglement for Systems of Identical Bosons. I General Theory

Author

Dalton, Bryan, Goold, John, Garraway, Barry, and Reid, Margaret

Subjects
Quantum Physics, FOS: Physical sciences, Quantum Physics (quant-ph)
Abstract

These two accompanying papers treat two mode entanglement for systems of identical massive bosons and the relationship to spin squeezing and other quantum correlation effects. Entanglement is a key quantum feature of composite systems where the probabilities for joint measurements on the composite sub-systems are no longer determined from measurement probabilities on the separate sub-systems. We focus on the meaning of entanglement, the quantum paradoxes associated with entangled states, and important tests that allow an experimentalist to determine whether a quantum state - in particular, one for massive bosons is entangled. Our tests for entanglement fully utilise the symmetrisation principle and super-selection rules for bosonic massive particles. These papers provides detailed arguments necessary for the conclusions of a recent paper which presented results for rigorously demonstrating the entanglement of a two-mode Bose-Einstein condensate (BEC). In the first paper (I), we discuss the meaning of entanglement for systems of identical particles. For such systems, the relevant quantum density operators must satisfy the symmetrisation principle and global and local super-selection rules prohibiting states in which there are coherences between differing particle numbers. We fully justify these requirements. In the second quantisation approach, both the system and sub-systems are modes (or sets of modes) rather than particles, particles being associated with different mode occupancies. In the accompanying review paper (II), we consider spin squeezing and other tests for entanglement for two-mode bosonic systems. Starting from paper (I) we determine which tests are useful for detecting entanglement in massive bosonic (BEC), as opposed to photonic, systems. Several new inequalities are derived, and recent key experiments are analysed., 131 pages, 0 figures. Paper I has been revised, this version containing substantial changes to Sections 2.5, 2.5.1, 2.7.1, 2.7.3, 2.8.1 on hidden variable theory and Sections 3.2.3, 3.2.9 on conservation laws and super-selection rules for photons. It has been submitted for publication also. Related Paper II at ArXiv 1506.06892. arXiv admin note: substantial text overlap with arXiv:1305.0788

Published
2015

18. Energetic fluctuations in an open quantum process

Author

Goold, John and Modi, Kavan

Subjects
Quantum Physics, Statistical Mechanics (cond-mat.stat-mech), FOS: Physical sciences, Quantum Physics (quant-ph), Condensed Matter - Statistical Mechanics
Abstract

Relations similar to work and exchange fluctuations have been recently derived for open systems dynamically evolving in the presence of an ancilla. Extending these relations and constructing a non-equilibrium Helmholtz equation we derive a general expression for the energetic and entropic changes of an open quantum system undergoing a nontrivial evolution. The expressions depend only on the state of the system and the dynamical map generating the evolution. Furthermore our formalism makes no assumption on either the nature or dimension of the ancilla. Our results are expected to find application in understanding the energetics of complex quantum systems undergoing open dynamics., 5 pages and 3 figures

Published
2014

19. Measurement and Particle Statistics in the Szilard Engine

Author

Plesch, Martin, Dahlsten, Oscar, Goold, John, and Vedral, Vlatko

Subjects
Quantum Physics, FOS: Physical sciences, Quantum Physics (quant-ph)
Abstract

A Szilard Engine is a hypothetical device which is able to extract work from a single thermal reservoir by measuring the position of particles within the engine. We derive the amount of work that can be extracted from such a device in the low temperature limit. Interestingly, we show this work is determined by the information gain of the initial measurement rather than by the number and type of particles which constitute the working substance. Our work provides another clear connection between information gain and extractable work in thermodynamical processes., 4 pages

Published
2012

20. Quantum coherent contributions in biological electron transfer

Author

Dorner, Ross, Goold, John, Heaney, Libby, Farrow, Tristan, Roberts, Philippa G., Hirst, Judy, and Vedral, Vlatko

Subjects
Quantum Physics, Quantitative Biology - Biomolecules, Biological Physics (physics.bio-ph), FOS: Biological sciences, Soft Condensed Matter (cond-mat.soft), FOS: Physical sciences, Biomolecules (q-bio.BM), Physics - Biological Physics, Condensed Matter - Soft Condensed Matter, Quantum Physics (quant-ph)
Abstract

Many biological electron transfer (ET) reactions are mediated by metal centres in proteins. NADH:ubiquinone oxidoreductase (complex I) contains an intramolecular chain of seven iron-sulphur (FeS) clusters, one of the longest chains of metal centres in biology and a test case for physical models of intramolecular ET. In biology, intramolecular ET is commonly described as a diffusive hopping process, according to the semi-classical theories of Marcus and Hopfield. However, recent studies have raised the possibility that non-trivial quantum mechanical effects play a functioning role in certain biomolecular processes. Here, we extend the semi-classical model for biological ET to incorporate both semi-classical and coherent quantum phenomena using a quantum master equation based on the Holstein Hamiltonian. We test our model on the structurally-defined chain of FeS clusters in complex I. By exploring a wide range of realistic parameters we find that, when the energy profile for ET along the chain is relatively flat, just a small coherent contribution can provide a robust and significant increase in ET rate (above the semi-classical diffusive-hopping rate), even at physiologically-relevant temperatures. Conversely, when the on-site energies vary significantly along the chain the coherent contribution is negligible. For complex I, a crucial respiratory enzyme that is linked to many neuromuscular and degenerative diseases, our results suggest a new contribution towards ensuring that intramolecular ET does not limit the rate of catalysis. For the emerging field of quantum biology, our model is intended as a basis for elucidating the general role of coherent ET in biological ET reactions.

Published
2011

21. Dephasing enhanced spin transport in the ergodic phase of a many-body localizable system.

Author

Žnidarič, Marko, Mendoza‐Arenas, Juan Jose, Clark, Stephen R., and Goold, John

Subjects
LATTICE theory, ANDERSON localization, QUANTUM mechanics, TEMPERATURE, LOGARITHMIC functions
Abstract

We study high temperature spin transport in a disordered Heisenberg chain in the ergodic regime when bulk dephasing is present. We find that while dephasing always renders the transport diffusive, there is nonetheless a remnant of the diffusive to sub-diffusive transition found in a system without dephasing manifested in the behaviour of the diffusion constant with the dephasing strength. By studying finite-size effects we show numerically and theoretically that this feature is caused by the competition between large crossover length scales associated to disorder and dephasing that control the dynamics observed in the thermodynamic limit. We demonstrate that this competition may lead to a dephasing enhanced transport in this model. [ABSTRACT FROM AUTHOR]

Published
2017
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22. Nonequilibrium Quantum Landauer Principle.

Author

Goold, John, Patemostro, Mauro, and Modi, Kavan

Subjects
*NONEQUILIBRIUM thermodynamics, *QUANTUM correlations, *PHASE transitions, *PHOTONS, *THERMODYNAMICS, *QUANTUM theory
Abstract

Using the operational framework of completely positive, trace preserving operations and thermodynamic fluctuation relations, we derive a lower bound for the heat exchange in a Landauer erasure process on a quantum system. Our bound comes from a nonphenomenological derivation of the Landauer principle which holds for generic nonequilibrium dynamics. Furthermore, the bound depends on the nonunitality of dynamics, giving it a physical significance that differs from other derivations. We apply our framework to the model of a spin-1/2 system coupled to an interacting spin chain at finite temperature. [ABSTRACT FROM AUTHOR]

Published
2015
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23. Maxwell's Daemon: Information versus Particle Statistics.

Author

Plesch, Martin, Dahlsten, Oscar, Goold, John, and Vedral, Vlatko

Subjects
BOSONS, PARTICLES (Nuclear physics), AXIONS, HIGGS bosons, INTERMEDIATE bosons
Abstract

Maxwell's daemon is a popular personification of a principle connecting information gain and extractable work in thermodynamics. A Szilard Engine is a particular hypothetical realization of Maxwell's daemon, which is able to extract work from a single thermal reservoir by measuring the position of particle(s) within the system. Here we investigate the role of particle statistics in the whole process; namely, how the extractable work changes if instead of classical particles fermions or bosons are used as the working medium. We give a unifying argument for the optimal work in the different cases: the extractable work is determined solely by the information gain of the initial measurement, as measured by the mutual information, regardless of the number and type of particles which constitute the working substance. [ABSTRACT FROM AUTHOR]

Published
2014
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24. Measuring the heat exchange of a quantum process.

Author

Goold, John, Poschinger, Ulrich, and Modi, Kavan

Subjects
*MESOSCOPIC physics, *HEAT transfer, *QUANTUM thermodynamics, *PHASE estimation (Electronics), *HEAT exchangers
Abstract

Very recently, interferometric methods have been proposed to measure the full statistics of work performed on a driven quantum system [Dorner et al, Phys. Rev. Lett. 110, 230601 (2013) and Mazzola et al., Phys. Rev. Lett. 110, 230602 (2013)]. The advantage of such schemes is that they replace the necessity to make projective measurements by performing phase estimation on an appropriately coupled ancilla qubit. These proposals are one possible route to the tangible experimental exploration of quantum thermodynamics, a subject which is the center of much current attention due to the current control of mesoscopic quantum systems. In this Rapid Communication we demonstrate that a modification of the phase estimation protocols can be used in order to measure the heat distribution of a quantum process. In addition, we demonstrate how our scheme maybe implemented using ion trap technology. Our scheme should pave the way for experimental explorations of the Landauer principle and hence the intricate energy to information conversion in mesoscopic quantum systems. [ABSTRACT FROM AUTHOR]

Published
2014
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25. Effects of quantum coherence in metalloprotein electron transfer.

Author

Dorner, Ross, Goold, John, Heaney, Libby, Farrow, Tristan, and Vedral, Vlatko

Subjects
*QUANTUM theory, *COHERENCE (Physics), *METALLOPROTEINS, *INTRAMOLECULAR charge transfer, *PARAMETER estimation, *POTENTIAL theory (Physics)
Abstract

Many intramolecular electron transfer (ET) reactions in biology are mediated by metal centers in proteins. This process is commonly described by a model of diffusive hopping according to the semiclassical theories of Marcus and Hopfield. However, recent studies have raised the possibility that nontrivial quantum mechanical effects play a functioning role in certain biomolecular processes. Here, we investigate the potential effects of quantum coherence in biological ET by extending the semiclassical model to allow for the possibility of quantum coherent phenomena using a quantum master equation based on the Holstein Hamiltonian. We test the model on the structurally defined chain of seven iron-sulfur clusters in nicotinamide adenine dinucleotide plus hydrogen:ubiquinone oxidoreductase (complex I), a crucial respiratory enzyme and one of the longest chains of metal centers in biology. Using experimental parameters where possible, we find that, in limited circumstances, a small quantum mechanical contribution can provide a marked increase in the ET rate above the semiclassical diffusive-hopping rate. Under typical biological conditions, our model reduces to well-known diffusive behavior. [ABSTRACT FROM AUTHOR]

Published
2012
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26. Variation in the whistle characteristics of short-beaked common dolphins, Delphinus delphis, at two locations around the British Isles.

Author

Ansmann, Ina C., Goold, John C., Evans, Peter G.H., Simmonds, Mark, and Keith, Simon G.

Abstract

The vocal repertoire of many delphinid odontocetes includes narrowband tonal whistles used mainly for communication. The aim of this study was to describe the whistle repertoire of short-beaked common dolphins, Delphinus delphis, recorded in the Celtic Sea between May and August 2005. The 1835 whistles recorded were classified into six broad categories and 30 sub-types, of which simple upsweeps and downsweeps were the most common. Furthermore, the parameters duration, inflections, steps and various frequency variables were measured. The whistles covered a frequency span from 3.56 kHz to 23.51 kHz and had durations between 0.05 and 2.02 seconds. Whistle parameters varied with behavioural context, group size and between encounters. The whistle repertoire of Celtic Sea common dolphins was compared to that of D. delphis from the Western Approaches of the English Channel, recorded during a survey between January and March 2004. The relative abundances of the broad whistle types did not differ between the two locations, but most whistle parameters were significantly different: almost all frequency variables measured were significantly higher in English Channel whistles. This may indicate some degree of population structuring of short-beaked common dolphins around Britain. Alternatively, the common dolphins in the English Channel may have shifted the frequencies of their vocalizations up to avoid masking by low-frequency ambient noise produced by high levels of vessel traffic in this area. [ABSTRACT FROM PUBLISHER]

Published
2007
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27. Summer social distribution of sperm whales (Physeter macrocephalus) in the Mediterranean Sea.

Author

Drouot, Violaine, Gannier, Alexandre, and Goold, John C.

Abstract

Sperm whale social distribution was investigated in the Mediterranean Sea, using data collected during summer surveys from 1997 to 2002. Variations in the size of sperm whale schools/underwater aggregations were assessed using both visual and acoustic data. Individual body lengths were estimated acoustically, using the click inter-pulse intervals. Regional comparisons were undertaken, taking the 41° parallel as a north/south boundary. In the southern region, schools of up to seven sperm whales were sighted and calves were relatively frequent. The animals ranged between 8·6 m and 13·1 m long. In the northern region, school sizes were significantly smaller, with a maximum of three whales sighted at the surface. However, the acoustic survey showed that sperm whales form loose aggregations of up to five animals in certain areas. Whales detected in the north were 12·6 m long on average, and the body size range was relatively small. This summer survey demonstrated a segregation of males, in the north, from larger schools including calves, which seemed to be confined to the southern region. [ABSTRACT FROM PUBLISHER]

Published
2004
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28. North Atlantic Sperm Whale, Physeter macrocephalus, Strandings on the Coastlines of the British Isles and Eastern Canada.

Author

Goold, John C., Whitehead, Hal, and Reid, Robert J.

Abstract

Examines geographic and temporal patterns of Sperm Whale strandings in both British and eastern Canadian waters in order to quantify stranding trends. Potential causes of strandings; Analysis of the changes in distribution and migration patterns; Raw strandings data.

Published
2002
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29. Clicks from Cuvier's beaked whales, Ziphius cavirostris (L).

Author

Frantzis, Alexandros, Goold, John C., Skarsoulis, Emmanuel K., Taroudakis, Michael I., and Kandia, Varvara

Abstract

Recordings of pulsed sounds (clicks) from Cuvier's beaked whales are presented. Such recordings have not been reported in the literature before. Spectrogram analysis of data collected off SW Crete (Greece) from 1998 to 2000 revealed numerous sequences of clicks. Click pulses had durations of about 1 ms and their energy content in the audible spectrum presented a narrow peak between 13 and 17 kHz. Sequences of 35-105 clicks, with duration 15-44 s, were separated by short intersequence pauses of 3-10 s. Interclick intervals appeared fairly constant, primarily oscillating between 0.40 and 0.50 s. Characteristics of Cuvier's beaked whale clicks were consistent with echolocating cetaceans, suggesting that this species do echolocate. © 2002 Acoustical Society of America. [ABSTRACT FROM AUTHOR]

Published
2002
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31. Behavioural and acoustic observations of sperm whales in Scapa Flow, Orkney Islands.

Author

Goold, John C.

Abstract

Six juvenile sperm whales were observed visually and acoustically in the confined waters of Scapa Flow, Orkney Islands during March 1993. General visual behaviours observed included slow travelling, head-outs, logging and side fluking but there were no observations of tail fluking within the confines of Scapa Flow. Recordings of the whales' vocalizations through hydrophones revealed a remarkably wide repertoire including clicks, rapid clicks, gunshots, chirrups, creaks, short trumpets, pips, squeals and clangs. Selected examples of these sounds were digitized and analysed as spectrograms. Clicks, rapid clicks, gunshots and clangs all showed a characteristic impulsive broadband signature. Chirrups, short trumpets and creaks were composed of rapid sequences of broadband impulses, although creaks were invariably faint and were difficult to illustrate well. Chirrups, short trumpets and clangs showed strong spectral peaks and pips were particularly unusual sounds with impulsive narrowband signatures composed of harmonically spaced peaks. Squeals exhibited prolonged, narrowband swept frequency signatures often with slight oscillation. All types of vocalization with the exception of clangs were heard from sperm whales during pure observation, minimum disturbance encounters in the field. Two attempts were made to remove the whales from Scapa Flow, the first being an enticement operation to lure the whales to open water with the use of underwater playback of sounds of socializing female sperm whales and the second a shepherding operation to drive the whales with a flotilla of vessels. The enticement operation was unsuccessful but the shepherding operation was successful, although the whales showed considerable reluctance to navigate a narrow channel to the open sea. During the shepherding operation there was a distinct change in the nature of the whales' vocalizations, with clangs predominating over other forms. [ABSTRACT FROM PUBLISHER]

Published
1999
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32. Sound velocity measurements in spermaceti oil under the combined influences of temperature and...

Author

Goold, John C. and Bennel, James D.

Subjects
*SPEED of sound, *SPERMACETI, *UNDERWATER acoustics
Abstract

Discusses the measurement of sound velocity in samples of spermaceti oil from the head of a sperm whale under varying temperature and pressure. Velocity's linear increase with increasing pressure and non-linear decrease with increasing temperature; Absence of sudden changes in sound velocity as oil changed phase from liquid to solid.

Published
1996
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33. Acoustic Assessment of Populations of Common Dolphin off the West Wales Coast, With Perspectives from Satellite Infrared Imagery.

Author

Goold, John C.

Abstract

Passive acoustic monitoring of common dolphins was conducted across a survey area of 1000 n.m.2 (nautical miles) off the west Wales coast during the months September, October, November and December 1995. Dolphin presence and distribution was assessed by a system of percentage acoustic contact. Results were compared with those from a seismic/dolphin survey during the same months of the previous year, and across the same survey area. Distributions of common dolphins within the survey area showed similar trends for both years, with a marked decrease in dolphin contacts between September and October of both years. These observations suggest offshore migration of common dolphin populations at the time of year. Sea surface temperature distribution across the entire region was visualized during two survey periods using infrared satellite imagery. It is hypothesized from these observations that offshore migration of common dolphins coincides with a break-up of the Celtic Sea Front, a distinct oceanographic feature which crosses the survey area. [ABSTRACT FROM PUBLISHER]

Published
1998
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34. Acoustic Assessment of Populations of Common Dolphin Delphinus Delphis In Conjunction With Seismic Surveying.

Author

Goold, John C.

Abstract

Common dolphin, Delphinus delphis (bairdi), were monitored acoustically across a survey area of 2747 km2 during a three month period before, during and after an oil industry two dimensional (2D) seismic reflection survey. Over 900 h of audio survey data were collected and analysed, along with GPS positional data, to reveal trends in presence and distribution of animals. The presence of dolphins was determined from vocalization events on the survey recordings. Dolphin presence was assessed by a system of percentage acoustic contact. This was highest before and after the seismic survey, with common dolphins showing a clear south-westerly skew within the survey area and a probable south-westerly migration of animals between September and December. Acoustic contact with dolphins during the seismic survey also showed a south-westerly skew within the survey area, although percentages were lower. Monitoring during the period of seismic activity was restricted to the immediate vicinity (1–2 km) of the seismic vessel, so percentage contact most likely reflects the response of dolphins to such immediate activity. The overall result suggests an avoidance reaction by common dolphins to air gun emissions, although certain observations suggest tolerance to these sounds outside a 1 km radius of the guns. [ABSTRACT FROM PUBLISHER]

Published
1996
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35. Broadband spectra of seismic survey air-gun emissions, with reference to dolphin auditory thresholds.

Author

Goold, John C. and Fish, Peter J.

Abstract

Acoustic emissions from a 2120 cubic in. air-gun array were recorded through a towed hydrophone assembly during an oil industry 2-D seismic survey off the West Wales Coast of the British Isles. Recorded seismic pulses were sampled, calibrated, and analyzed post-survey to investigate power levels of the pulses in the band 200 Hz-22 kHz at 750-m, 1-km, 2.2-km, and 8-km range from source. At 750-m range from source, seismic pulse power at the 200-Hz end of the spectrum was 140 dB re: 1 μPa2/Hz, and at the 20-kHz end of the spectrum seismic pulse power was 90 dB re: 1 μPa2/Hz. Although the background noise levels of the seismic recordings were far in excess of ambient, due to the proximity of engine, propeller, and flow sources of the ship towing the hydrophone, seismic power dominated the entire recorded bandwidth of 200 Hz-22 kHz at ranges of up to 2 km from the air-gun source. Even at 8-km range seismic power was still clearly in excess of the high background noise levels up to 8 kHz. Acoustic observations of common dolphins during preceding seismic surveys suggest that these animals avoided the immediate vicinity of the air-gun array while firing was in progress, i.e., localized disturbance occurred during seismic surveying. Although a general pattern of localized disturbance is suggested, one specific observation revealed that common dolphins were able to tolerate the seismic pulses at 1-km range from the air-gun array. Given the high broadband seismic pulse power levels across the entire recorded bandwidth, and known auditory thresholds for several dolphin species, we consider such seismic emissions to be clearly audible to dolphins across a bandwidth of tens on kilohertz, and at least out to 8-km range. © 1998 Acoustical Society of America. [ABSTRACT FROM AUTHOR]

Published
1998
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36. Signal processing techniques for acoustic measurement of sperm whale body lengths.

Author

Goold, John C.

Abstract

Waveform cross correlation and cepstrum analysis were used to demonstrate possible techniques to measure pulse intervals within sperm whale sonar clicks. The structure of sperm whale clicks takes the form of a series of decaying broadband pulses separated by a time interval that is a function of sound velocity in spermaceti oil and the length of the spermaceti sac within the whales' head. Click signals were bandpass filtered and waveform cross correlation used on the filtered signals to obtain maxima in the correlation function. Such maxima occur when successive pulses within the filtered click waveforms align after time shifting of the replica waveform by integer multiples of the interpulse interval. As an alternative approach, cepstrum analysis was used on the spectra of individual clicks, which were found to contain ripples with periods corresponding to the reciprocal of the interpulse interval. Variable signal quality lead to the conclusion that neither method was reliable for spot measurements of IPIs from individual clicks. However, calculating IPIs by either method for several hundred clicks in 6-min sequences, and smoothing the results with moving averages, allowed realistic mean values to be obtained and interpulse interval trends to be observed with dive time. Interpulse intervals were generally found to decrease with dive time, in accordance with known sound velocity characteristics of spermaceti oil under increasing pressure. Mean values of interpulse intervals obtained by cepstrum analysis for each click sequence were used to estimate body lengths of the respective animals. © 1996 Acoustical Society of America. [ABSTRACT FROM AUTHOR]

Published
1996
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37. Time and frequency domain characteristics of sperm whale clicks.

Author

Goold, John C. and Jones, Sarah E.

Abstract

Regular clicks from diving sperm whales, both large bull males and smaller females, were recorded in deep oceanic water off the Azores and subsequently sampled to computer disks for digital analysis. A total of 8540 clicks were marked and analyzed. Simple temporal analysis of the interclick intervals during feeding dives revealed mean click rates for male sperm whales of 1.1713 s-1 and 1.9455 s-1 for females. Fourier analysis showed distinctive peaks in the spectra of bull male sperm whales at 400 Hz and 2 kHz which were stable over extended periods of up to 20 mins. The clicks contained higher frequency components with energy ranging up to at least 12 kHz but not concentrated at any sharply defined frequency. The clicks of smaller female sperm whales showed similar spectral peaks, shifted to 1.2 and 3 kHz, respectively, but these peaks were less pronounced than those in the male click spectra and less stable with time. Higher frequencies were also present up to at least 15 kHz. The previously reported multiple pulse structure of sperm whale clicks is confirmed, but digital filtering reveals this structure to be frequency dependent. Analysis using the short-time Fourier transform confirms the complex time-frequency structure of individual clicks. The frequencies at which the multiples emerge in male and female clicks supports the idea of air cavities in the sperm whale head acting as sound reflectors, although the magnitude of the second pulse at high frequencies suggests some form of off axis distortion. It is also possible that air cavity resonance in the head of the sperm whale may act to reinforce the high-frequency components of the click, and that such components may have superior range and resolution performance in terms of echolocation. © 1995 Acoustical Society of America. [ABSTRACT FROM AUTHOR]

Published
1995
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38. HOW THEY GOT SCOTT.

Author

Bane, Vickie, Fladager, Birgit, Goold, John, Bertalotto, Kevin, Brocchini, Al, Buehler, Jon, and Rocha, Sharon

Subjects
INTERVIEWING, PUBLIC prosecutors, LAW enforcement, LAW, OFFENSES against the person, CRIMINAL procedure, CRIME, CIVIL service, HOMICIDE, MURDER
Abstract

Present an interview with law enforcement officials and prosecutors who worked on the criminal case of Scott Peterson, who was convicted for the murder of his pregnant wife Laci Peterson; Comments from Stanislaus County prosecutor Rick Distaso and detective Al Brocchini regarding their early suspicions in the case; Comments from detective Jon Buehler regarding Peterson's cooperation with the investigation; Comments from the group regarding the trial and how their involvement in the Peterson case effected them.

Published
2005

39. Thermodynamics of quantum information scrambling.

Author

Campisi, Michele and Goold, John

Subjects
*THERMODYNAMICS, *QUANTUM information theory
Abstract

Scrambling of quantum information can conveniently be quantified by so-called out-of-time-order correlators (OTOCs), i.e., correlators of the type 〈[Wτ,V]†[Wτ,V]〉, whose measurements present a formidable experimental challenge. Here we report on a method for the measurement of OTOCs based on the so-called two-point measurement scheme developed in the field of nonequilibrium quantum thermodynamics. The scheme is of broader applicability than methods employed in current experiments and provides a clear-cut interpretation of quantum information scrambling in terms of nonequilibrium fluctuations of thermodynamic quantities, such as work and heat. Furthermore, we provide a numerical example on a spin chain which highlights the utility of our thermodynamic approach when understanding the differences between integrable and ergodic behaviors. We also discuss how the method can be used to extend the reach of current experiments. [ABSTRACT FROM AUTHOR]

Published
2017
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40. Response to 'Comments on 'Broadband spectra of seismic survey air-gun emissions with reference to dolphin auditory thresholds' ' [J. Acoust. Soc. Am. 105, 2047-2048 (1999)].

Author

Goold, John C. and Fish, Peter J.

Abstract

In a prior paper, 'Broadband spectra of seismic survey air-gun emissions with reference to dolphin auditory thresholds' [Goold and Fish, J. Acoust. Soc. Am. 103, 2177-2184 (1998)] a comparison was drawn between the estimation of sound levels at a distance which unconstrained dolphins would appear to maintain from a seismic air-gun source and the sound threshold at which captive dolphins displayed behavioral changes as reported by Ridgway et al. [Tech. Rpt. 1751, NCCOSC RDTE (1997)]. This prompted comments in the letter above on the validity of the conclusions of the prior paper. In this rebuttal, it is pointed out that uncertainties in the sound levels estimated in the prior paper arising from uncertainties in distance estimation, sound-propagation model, frequency weighting, and allowance for pulse duration are most unlikely to account for the very large difference of 48 dB between Goold and Fish's results and Ridgway's. The differences in criteria for deciding the threshold-behavior suggesting distress in captive dolphins (Ridgway et al.) and the assumption that dolphins swim to a distance at which the sound is tolerated (Goold and Fish), is the most likely explanation for the difference in the published figures. © 1999 Acoustical Society of America. [ABSTRACT FROM AUTHOR]

Published
1999
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41. Eigenstate Thermalization in a Locally Perturbed Integrable System.

Author

Brenes, Marlon, LeBlond, Tyler, Goold, John, and Rigol, Marcos

Subjects
*PREDICTION models
Abstract

Eigenstate thermalization is widely accepted as the mechanism behind thermalization in generic isolated quantum systems. Using the example of a single magnetic defect embedded in the integrable spin-1/2 XXZ chain, we show that locally perturbing an integrable system can give rise to eigenstate thermalization. Unique to such setups is the fact that thermodynamic and transport properties of the unperturbed integrable chain emerge in properties of the eigenstates of the perturbed (nonintegrable) one. Specifically, we show that the diagonal matrix elements of observables in the perturbed eigenstates follow the microcanonical predictions for the integrable model, and that the ballistic character of spin transport in the integrable model is manifest in the behavior of the off-diagonal matrix elements of the current operator in the perturbed eigenstates. [ABSTRACT FROM AUTHOR]

Published
2020
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42. Multipartite Entanglement Structure in the Eigenstate Thermalization Hypothesis.

Author

Brenes, Marlon, Pappalardi, Silvia, Goold, John, and Silva, Alessandro

Subjects
*CANONICAL ensemble, *FISHER information, *QUANTUM information theory, *PHASE transitions, *HYPOTHESIS
Abstract

We study the quantum Fisher information (QFI) and, thus, the multipartite entanglement structure of thermal pure states in the context of the eigenstate thermalization hypothesis (ETH). In both the canonical ensemble and the ETH, the quantum Fisher information may be explicitly calculated from the response functions. In the case of the ETH, we find that the expression of the QFI bounds the corresponding canonical expression from above. This implies that although average values and fluctuations of local observables are indistinguishable from their canonical counterpart, the entanglement structure of the state is starkly different; with the difference amplified, e.g., in the proximity of a thermal phase transition. We also provide a state-of-the-art numerical example of a situation where the quantum Fisher information in a quantum many-body system is extensive while the corresponding quantity in the canonical ensemble vanishes. Our findings have direct relevance for the entanglement structure in the asymptotic states of quenched many-body dynamics. [ABSTRACT FROM AUTHOR]

Published
2020
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43. Thermodynamic Uncertainty Relations from Exchange Fluctuation Theorems.

Author

Timpanaro, André M., Guarnieri, Giacomo, Goold, John, and Landi, Gabriel T.

Subjects
*SPARK ignition engines, *GRANULAR flow, *UNCERTAINTY, *EXCHANGE
Abstract

Thermodynamic uncertainty relations (TURs) place strict bounds on the fluctuations of thermodynamic quantities in terms of the associated entropy production. In this Letter, we identify the tightest (and saturable) matrix-valued TUR that can be derived from the exchange fluctuation theorems describing the statistics of heat and particle flow between multiple systems of arbitrary dimensions. Our result holds for both quantum and classical systems, undergoing general finite-time nonstationary processes. Moreover, it provides bounds not only for the variances, but also for the correlations between thermodynamic quantities. To demonstrate the relevance of TURs to the design of nanoscale machines, we consider the operation of a 2-qubit swap engine undergoing an Otto cycle and show how our results can be used to place strict bounds on the correlations between heat and work. [ABSTRACT FROM AUTHOR]

Published
2019
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44. Energy Current Rectification and Mobility Edges.

Author

Balachandran, Vinitha, Clark, Stephen R., Goold, John, and Poletti, Dario

Subjects
*EDGES (Geometry), *MAGNITUDE (Mathematics), *BATHS, *ION mobility
Abstract

We investigate how the presence of a single-particle mobility edge in a system can generate strong energy current rectification. Specifically, we study a quadratic bosonic chain subject to a quasiperiodic potential and coupled at its boundaries to spin baths of differing temperature. We find that rectification increases by orders of magnitude depending on the spatial position in the chain of localized eigenstates above the mobility edge. The largest enhancements occur when the coupling of one bath to the system is dominated by a localized eigenstate, while the other bath couples to numerous delocalized eigenstates. By tuning the parameters of the quasiperiodic potential it is thus possible to vary the amplitude, and even invert the direction, of the rectification. [ABSTRACT FROM AUTHOR]

Published
2019
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46. Characterization and simulation of multipartite open quantum systems

Author

Cattaneo, Marco, University of Helsinki, Faculty of Science, Doctoral Programme in Particle Physics and Universe Sciences, Helsingin yliopisto, matemaattis-luonnontieteellinen tiedekunta, Alkeishiukkasfysiikan ja maailmankaikkeuden tutkimuksen tohtoriohjelma, Helsingfors universitet, matematisk-naturvetenskapliga fakulteten, Doktorandprogrammet i elementarpartikelfysik och kosmologi, Sanpera, Anna, Goold, John, Maniscalco, Sabrina, Zambrini, Roberta, and Rossi, Matteo A. C.

Subjects
physics
Abstract

Having a quick look at contemporary quantum mechanics, we immediately see that the study of open quantum systems is of great relevance both for fundamental reasons and for the development of quantum technologies that will be able to display quantum advantage. An open quantum system is defined in a very general way as a non-isolated quantum system that is interacting with one or more external environments. This picture can give us a valuable insight, for instance, into how a single superconducting qubit of a quantum computer that is subject to thermal fluctuations loses its coherences, or into the thermodynamics of an atom immersed in the electromagnetic field. Hence, improving our understanding of the dynamics and characterization of open quantum systems is a crucial challenge in the second quantum revolution, as well as a fascinating step forward in the study of the deepest concepts in Physics, such as the quantum to classical transition. Motivated by renewed studies on dissipative collective effects, by new dis- coveries about the features of noise in quantum computers, and by recent experiments focused on many-qubit systems, the interest in multipartite open quantum systems has recently risen. A dissipative collective effect may be defined as the coherent interference of the emissions (and/or absorptions) of many quantum particles interacting with external environments. Multipar- tite open quantum systems are open systems made of multiple subsystems, which can interact with each other and at the same time may be coupled to local and/or collective environments. This type of open quantum systems plays a crucial role, for instance, in the study of “crosstalk errors” in quantum information processors, in the thermodynamic analysis of spin or harmonic oscillator chains, as well as in the description of collective phenomena such as superradiance and quantum synchronization. The characterization and simu- lation of the dynamics of multipartite open quantum systems is the topic of this doctoral dissertation. This thesis consists of six original research articles and an introduction to their methodology, scope, and significance. The first two publications explore the validity and features of the so-called global and local master equations (i.e., the equations of motion for open quantum systems), which are widely employed in quantum thermodynamics. In particular, these papers are fo- cused on a particular type of master equation based on the “partial secular approximation”, which is shown to be accurate in all regimes of validity of the standard Markovian master equation. Moreover, the symmetry properties of these master equations are discussed. The third scientific article shows how the most common examples of multipartite open quantum systems can be simulated through a platform of superconducting qubits coupled to a resistor emitting thermal noise. The fourth publication studies how different collective effects, such as quantum synchronization, subradiance and entanglement gen- eration, can emerge in a model of two detuned qubits coupled to a common bath. The fifth research paper introduces a quantum algorithm based on a collision model that is able to simulate the most general Markovian multi- partite quantum dynamics, and proves that this algorithm can be efficiently simulated on a quantum computer. Finally, the sixth publication presents the experimental implementation of this algorithm on a near-term quantum com- puter, and assesses both theoretically and experimentally the features of noise on the algorithm. In conclusion, this thesis brings some relevant contributions to the field of multipartite open quantum systems, not only regarding methodological ques- tions, but also phenomenological predictions and experimental implementa- tions on a quantum computer. These contributions include the description and characterization of a general master equation for Markovian multipartite open quantum systems, and some new procedures for the analog and digital quantum simulation thereof. Kun tarkastellaan nopeasti nykyaikaista kvanttimekaniikkaa, huomaamme heti, että avoimien kvanttijärjestelmien tutkiminen on erittäin tärkeää sekä perustavanlaatuisista syistä että kvanttietujen näyttämisen mahdollistavien kvanttiteknologioiden kehittämisen kannalta. Avoin kvanttijärjestelmä määritellään yleisellä tavalla eristämättömäksi kvanttijärjestelmäksi, joka on vuorovaikutuksessa yhden tai useamman ulkoisen ympäristön kanssa. Tämä kuva voi antaa meille arvokkaan käsityksen esimerkiksi siitä, kuinka lämpövaihteluille riippuvainen suprajohtava kubitti kvanttitietokoneessa menettää koherenssinsa tai sähkömagneettiseen kenttään upotetun atomin termodynamiikasta. Näin ollen ymmärryksemme parantaminen avoimien kvanttijärjestelmien dynamiikan ja karakterisoinnin suhteen on ratkaiseva haaste toisessa kvanttivallankumouksessa sekä kiehtova edistysaskel fysiikan syvimpien käsitteiden, kuten kvanttimekaniikan ja klassisen mekaniikan rajan, tutkimisessa. Uusiutuneiden dissipatiivisten kollektiivisten vuorovaikutusten tutkimusten, kvanttitietokoneiden kohinan ominaisuuksista tehtyjen uusien löytöjen ja viimeaikaisten monikubittisiin järjestelmiin keskittyneiden kokeiden seurauksena kiinnostus moniosaisiin avoimiin kvanttijärjestelmiin kohtaan on viime aikoina lisääntynyt. Dissipatiivinen kollektiivinen vuorovaikutus voidaan määritellä monien ulkoisen ympäristön kanssa vuorovaikutuksessa olevien kvanttihiukkasten emission (ja/tai absorption) koherentiksi häiriöksi. Moniosaiset avoimet kvanttijärjestelmät ovat avoimia järjestelmiä, jotka koostuvat useista osajärjestelmistä, jotka voivat olla vuorovaikutuksessa toistensa kanssa ja samalla kytkeytyä paikallisiin ja/tai kollektiivisiin ympäristöihin. Tämän tyyppisillä avoimilla kvanttijärjestelmillä on ratkaiseva rooli esimerkiksi kvanttitietojen prosessorien “ylikuulumisvirheiden” tutkimuksessa, spin- tai harmonisten oskillaattoriketjujen termodynaamisessa analyysissä sekä kollektiivisten ilmiöiden, kuten supersäteilyn ja kvanttisynkronoinnin kuvauksessa. Moniosaisten avoimien kvanttijärjestelmien dynamiikan karakterisointi ja simulointi on tämän väitöskirjan aiheena. Tämä opinnäytetyö koostuu kuudesta alkuperäisestä tutkimusartikkelista ja johdannosta niiden metodologiaan, laajuuteen ja merkitykseen. Kaksi ensimmäistä julkaisua tutkivat niin kutsuttujen globaalien ja paikallisten pääyhtälöiden (eli avoimien kvanttijärjestelmien liikeyhtälöiden) pätevyyttä ja ominaisuuksia, joita käytetään laajalti kvanttitermodynamiikassa. Erityisesti nämä artikkelit keskittyvät tietyntyyppiseen pääyhtälöön, joka perustuu osittaiseen maalliseen approksimaatioon, joka on osoitettu olevan tarkka kaikissa standardin Markovin pääyhtälön kelpoisuusjärjestelmissä. Lisäksi käsitellään näiden pääyhtälöiden symmetriaominaisuuksia. Kolmas tieteellinen artikkeli osoittaa, kuinka yleisimpiä esimerkkejä moniosaisista avoimista kvanttijärjestelmistä voidaan simuloida suprajohtavien kubittien alustalla, joka on kytketty lämpökohinaa lähettävään vastukseen. Neljännessä julkaisussa tutkitaan, kuinka erilaiset kollektiiviset efektit, kuten kvanttisynkronointi, subradianssi ja takertuminen, voivat syntyä mallissa, jossa kaksi viritettyä kubittia on kytketty yhteiseen kylpyyn. Viides tutkimusartikkeli esittelee törmäysmalliin perustuvan kvanttialgoritmin, joka pystyy simuloimaan yleisintä Markovin moniosaista kvanttidynamiikkaa ja todistaa, että tämä algoritmi voidaan simuloida tehokkaasti kvanttitietokoneella. Lopuksi, kuudes julkaisu esittelee tämän algoritmin kokeellisen toteutuksen lähiajan kvanttitietokoneella ja arvioi sekä teoreettisesti että kokeellisesti algoritmin kohinan ominaisuuksia. Yhteenvetona voidaan todeta, että tämä opinnäytetyö tuo olennaisia panoksia moniosaisten avoimien kvanttijärjestelmien alaan ei pelkästään metodologisessa mielessä, mutta myös fenomenologisia ennusteita kokeellisille toteutuksille kvanttitietokoneella. Nämä panokset sisältävät yleisen pääyhtälön kuvauksen ja karakterisoinnin Markovin moniosaisille avoimille kvanttijärjestelmille ja uusia menetelmiä niiden analogisille ja digitaalisille kvanttisimulaatioille.

Published
2023

47. Quantum thermodynamics of general quantum processes.

Author

Binder, Felix, Vinjanampathy, Sai, Modi, Kavan, and Goold, John

Subjects
*QUANTUM thermodynamics, *QUANTUM mechanics, *QUANTUM states, *SECOND law of thermodynamics, *STATISTICAL mechanics
Abstract

Accurately describing work extraction from a quantum system is a central objective for the extension of thermodynamics to individual quantum systems. The concepts of work and heat are surprisingly subtle when generalizations are made to arbitrary quantum states. We formulate an operational thermodynamics suitable for application to an open quantum system undergoing quantum evolution under a general quantum process by which we mean a completely positive and trace-preserving map. We derive an operational first law of thermodynamics for such processes and show consistency with the second law. We show that heat, from the first law, is positive when the input state of the map majorizes the output state. Moreover, the change in entropy is also positive for the same majorization condition. This makes a strong connection between the two operational laws of thermodynamics. [ABSTRACT FROM AUTHOR]

Published
2015
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48. Experimental Reconstruction of Work Distribution and Study of Fluctuation Relations in a Closed Quantum System.

Author

Batalhao, Tiago B., Souza, Alexandre M., Mazzola, Laura, Auccaise, Ruben, Sarthour, Roberto S., Oliveira, Ivan S., Goold, John, De Chiara, Gabriele, Patemostro, Mauro, and Serra, Roberto M.

Subjects
*SPATIAL distribution (Quantum optics), *PROBABILITY theory, *FLUCTUATIONS (Physics), *NUCLEAR magnetic resonance, *THERMODYNAMICS
Abstract

We report the experimental reconstruction of the nonequilibrium work probability distribution in a closed quantum system, and the study of the corresponding quantum fluctuation relations. The experiment uses a liquid-state nuclear magnetic resonance platform that offers full control on the preparation and dynamics of the system. Our endeavors enable the characterization of the out-of-equilibrium dynamics of a quantum spin from a finite-time thermodynamics viewpoint. [ABSTRACT FROM AUTHOR]

Published
2014
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49. Comment on "Quantum Szilard Engine".

Author

Plesch, Martin, Dahlsten, Oscar, Goold, John, and Vedral, Vlatko

Subjects
*PARTICLE statistics (Statistical physics), *ENGINES
Abstract

A letter to the editor is presented in response to an article concerning the effect of particle statistics in the Szilard engine's extractable function in the 2011 issue.

Published
2013
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50. Tripartite nonlocality and continuous-variable entanglement in thermal states of trapped ions.

Author

Jie Li, Fogarty, Thomás, Cormick, Cecilia, Goold, John, Busch, Thomas, and Paternostro, Mauro

Subjects
*ION traps, *IONIC mobility, *ANISOTROPY, *PROPERTIES of matter, *DIFFUSION
Abstract

We study a system of three trapped ions in an anisotropic bidimensional trap. By focusing on the transverse modes of the ions, we show that the mutual ion-ion Coulomb interactions set entanglement of a genuine tripartite nature, to some extent persistent to the thermal nature of the vibronic modes. We tackle this issue by addressing a nonlocality test in the phase space of the ionic system and quantifying the genuine residual tripartite entanglement in the continuous variable state of the transverse modes. [ABSTRACT FROM AUTHOR]

Published
2011
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