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1

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Emergence of coherence and the dynamics of quantum phase transitions

Braun, Simon ; Friesdorf, Mathis ; Hodgman, Sean S. ; [weitere]

Proceedings of the National Academy of Sciences ; 2015

In: Proceedings of the National Academy of Sciences Vol. 112, No. 12 ( 2015-03-24), p. 3641-3646

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In: Proceedings of the National Academy of Sciences, Proceedings of the National Academy of Sciences, Vol. 112, No. 12 ( 2015-03-24), p. 3641-3646

Kurzfassung: The dynamics of quantum phase transitions pose one of the most challenging problems in modern many-body physics. Here, we study a prototypical example in a clean and well-controlled ultracold atom setup by observing the emergence of coherence when crossing the Mott insulator to superfluid quantum phase transition. In the 1D Bose–Hubbard model, we find perfect agreement between experimental observations and numerical simulations for the resulting coherence length. We, thereby, perform a largely certified analog quantum simulation of this strongly correlated system reaching beyond the regime of free quasiparticles. Experimentally, we additionally explore the emergence of coherence in higher dimensions, where no classical simulations are available, as well as for negative temperatures. For intermediate quench velocities, we observe a power-law behavior of the coherence length, reminiscent of the Kibble–Zurek mechanism. However, we find nonuniversal exponents that cannot be captured by this mechanism or any other known model.

Materialart: Online-Ressource

ISSN: 0027-8424 , 1091-6490

URL: Article

DOI: 10.1073/pnas.1408861112

RVK:

TA 1000

RVK:

WA 15000

Sprache: Englisch

Verlag: Proceedings of the National Academy of Sciences

Publikationsdatum: 2015

ZDB Id: 209104-5

ZDB Id: 1461794-8

SSG: 11

SSG: 12

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2

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Entangled families

Aspelmeyer, Markus ; Eisert, Jens

Springer Science and Business Media LLC ; 2008

In: Nature Vol. 455, No. 7210 ( 2008-9), p. 180-181

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In: Nature, Springer Science and Business Media LLC, Vol. 455, No. 7210 ( 2008-9), p. 180-181

Materialart: Online-Ressource

ISSN: 0028-0836 , 1476-4687

URL: Article

DOI: 10.1038/455180a

RVK:

TA 1000

RVK:

UA 1000

RVK:

WA 15000

Sprache: Englisch

Verlag: Springer Science and Business Media LLC

Publikationsdatum: 2008

ZDB Id: 120714-3

ZDB Id: 1413423-8

SSG: 11

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3

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Complexity and entanglement for thermofield double states

Chapman, Shira ; Eisert, Jens ; Hackl, Lucas ; [weitere]

Stichting SciPost ; 2019

In: SciPost Physics Vol. 6, No. 3 ( 2019-03-15)

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In: SciPost Physics, Stichting SciPost, Vol. 6, No. 3 ( 2019-03-15)

Kurzfassung: Motivated by holographic complexity proposals as novel probes of black hole spacetimes, we explore circuit complexity for thermofield double (TFD) states in free scalar quantum field theories using the Nielsen approach. For TFD states at t = 0 t = 0 , we show that the complexity of formation is proportional to the thermodynamic entropy, in qualitative agreement with holographic complexity proposals. For TFD states at t〉0 t 〉 0 , we demonstrate that the complexity evolves in time and saturates after a time of the order of the inverse temperature. The latter feature, which is in contrast with the results of holographic proposals, is due to the Gaussian nature of the TFD state of the free bosonic QFT. A novel technical aspect of our work is framing complexity calculations in the language of covariance matrices and the associated symplectic transformations, which provide a natural language for dealing with Gaussian states. Furthermore, for free QFTs in 1+1 dimension, we compare the dynamics of circuit complexity with the time dependence of the entanglement entropy for simple bipartitions of TFDs. We relate our results for the entanglement entropy to previous studies on non-equilibrium entanglement evolution following quenches. We also present a new analytic derivation of a logarithmic contribution due to the zero momentum mode in the limit of vanishing mass for a subsystem containing a single degree of freedom on each side of the TFD and argue why a similar logarithmic growth should be present for larger subsystems.

Materialart: Online-Ressource

ISSN: 2542-4653

URL: Journal

URL: Article

DOI: 10.21468/SciPostPhys

DOI: 10.21468/SciPostPhys.6.3.034

Sprache: Unbekannt

Verlag: Stichting SciPost

Publikationsdatum: 2019

ZDB Id: 2886659-9

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4

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Subsystem symmetries, quantum cellular automata, and computational phases of quantum matter

Stephen, David T. ; Nautrup, Hendrik Poulsen ; Bermejo-Vega, Juani ; [weitere]

Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften ; 2019

In: Quantum Vol. 3 ( 2019-05-20), p. 142-

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In: Quantum, Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften, Vol. 3 ( 2019-05-20), p. 142-

Kurzfassung: Quantum phases of matter are resources for notions of quantum computation. In this work, we establish a new link between concepts of quantum information theory and condensed matter physics by presenting a unified understanding of symmetry-protected topological (SPT) order protected by subsystem symmetries and its relation to measurement-based quantum computation (MBQC). The key unifying ingredient is the concept of quantum cellular automata (QCA) which we use to define subsystem symmetries acting on rigid lower-dimensional lines or fractals on a 2D lattice. Notably, both types of symmetries are treated equivalently in our framework. We show that states within a non-trivial SPT phase protected by these symmetries are indicated by the presence of the same QCA in a tensor network representation of the state, thereby characterizing the structure of entanglement that is uniformly present throughout these phases. By also formulating schemes of MBQC based on these QCA, we are able to prove that most of the phases we construct are computationally universal phases of matter, in which every state is a resource for universal MBQC. Interestingly, our approach allows us to construct computational phases which have practical advantages over previous examples, including a computational speedup. The significance of the approach stems from constructing novel computationally universal phases of matter and showcasing the power of tensor networks and quantum information theory in classifying subsystem SPT order.

Materialart: Online-Ressource

ISSN: 2521-327X

URL: Journal

URL: Article

DOI: 10.22331/q

DOI: 10.22331/q-2019-05-20-142

Sprache: Englisch

Verlag: Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften

Publikationsdatum: 2019

ZDB Id: 2931392-2

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5

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Encoding-dependent generalization bounds for parametrized quantum circuits

Caro, Matthias C. ; Gil-Fuster, Elies ; Meyer, Johannes Jakob ; [weitere]

Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften ; 2021

In: Quantum Vol. 5 ( 2021-11-17), p. 582-

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In: Quantum, Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften, Vol. 5 ( 2021-11-17), p. 582-

Kurzfassung: A large body of recent work has begun to explore the potential of parametrized quantum circuits (PQCs) as machine learning models, within the framework of hybrid quantum-classical optimization. In particular, theoretical guarantees on the out-of-sample performance of such models, in terms of generalization bounds, have emerged. However, none of these generalization bounds depend explicitly on how the classical input data is encoded into the PQC. We derive generalization bounds for PQC-based models that depend explicitly on the strategy used for data-encoding. These imply bounds on the performance of trained PQC-based models on unseen data. Moreover, our results facilitate the selection of optimal data-encoding strategies via structural risk minimization, a mathematically rigorous framework for model selection. We obtain our generalization bounds by bounding the complexity of PQC-based models as measured by the Rademacher complexity and the metric entropy, two complexity measures from statistical learning theory. To achieve this, we rely on a representation of PQC-based models via trigonometric functions. Our generalization bounds emphasize the importance of well-considered data-encoding strategies for PQC-based models.

Materialart: Online-Ressource

ISSN: 2521-327X

URL: Journal

URL: Article

DOI: 10.22331/q

DOI: 10.22331/q-2021-11-17-582

Sprache: Englisch

Verlag: Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften

Publikationsdatum: 2021

ZDB Id: 2931392-2

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6

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Semi-device-dependent blind quantum tomography

Roth, Ingo ; Wilkens, Jadwiga ; Hangleiter, Dominik ; [weitere]

Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften ; 2023

In: Quantum Vol. 7 ( 2023-07-11), p. 1053-

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In: Quantum, Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften, Vol. 7 ( 2023-07-11), p. 1053-

Kurzfassung: Extracting tomographic information about quantum states is a crucial task in the quest towards devising high-precision quantum devices. Current schemes typically require measurement devices for tomography that are a priori calibrated to high precision. Ironically, the accuracy of the measurement calibration is fundamentally limited by the accuracy of state preparation, establishing a vicious cycle. Here, we prove that this cycle can be broken and the dependence on the measurement device & apos;s calibration significantly relaxed. We show that exploiting the natural low-rank structure of quantum states of interest suffices to arrive at a highly scalable `blind & apos; tomography scheme with a classically efficient post-processing algorithm. We further improve the efficiency of our scheme by making use of the sparse structure of the calibrations. This is achieved by relaxing the blind quantum tomography problem to the de-mixing of a sparse sum of low-rank matrices. We prove that the proposed algorithm recovers a low-rank quantum state and the calibration provided that the measurement model exhibits a restricted isometry property. For generic measurements, we show that it requires a close-to-optimal number of measurement settings. Complementing these conceptual and mathematical insights, we numerically demonstrate that robust blind quantum tomography is possible in a practical setting inspired by an implementation of trapped ions.

Materialart: Online-Ressource

ISSN: 2521-327X

URL: Journal

URL: Article

DOI: 10.22331/q

DOI: 10.22331/q-2023-07-11-1053

Sprache: Englisch

Verlag: Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften

Publikationsdatum: 2023

ZDB Id: 2931392-2

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7

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Correcting non-independent and non-identically distributed errors with surface codes

Tiurev, Konstantin ; Derks, Peter-Jan H. S. ; Roffe, Joschka ; [weitere]

Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften ; 2023

In: Quantum Vol. 7 ( 2023-09-26), p. 1123-

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In: Quantum, Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften, Vol. 7 ( 2023-09-26), p. 1123-

Kurzfassung: A common approach to studying the performance of quantum error correcting codes is to assume independent and identically distributed single-qubit errors. However, the available experimental data shows that realistic errors in modern multi-qubit devices are typically neither independent nor identical across qubits. In this work, we develop and investigate the properties of topological surface codes adapted to a known noise structure by Clifford conjugations. We show that the surface code locally tailored to non-uniform single-qubit noise in conjunction with a scalable matching decoder yields an increase in error thresholds and exponential suppression of sub-threshold failure rates when compared to the standard surface code. Furthermore, we study the behaviour of the tailored surface code under local two-qubit noise and show the role that code degeneracy plays in correcting such noise. The proposed methods do not require additional overhead in terms of the number of qubits or gates and use a standard matching decoder, hence come at no extra cost compared to the standard surface-code error correction.

Materialart: Online-Ressource

ISSN: 2521-327X

URL: Journal

URL: Article

DOI: 10.22331/q

DOI: 10.22331/q-2023-09-26-1123

Sprache: Englisch

Verlag: Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften

Publikationsdatum: 2023

ZDB Id: 2931392-2

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8

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Anticoncentration theorems for schemes showing a quantum speedup

Hangleiter, Dominik ; Bermejo-Vega, Juan ; Schwarz, Martin ; [weitere]

Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften ; 2018

In: Quantum Vol. 2 ( 2018-05-22), p. 65-

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In: Quantum, Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften, Vol. 2 ( 2018-05-22), p. 65-

Kurzfassung: One of the main milestones in quantum information science is to realise quantum devices that exhibit an exponential computational advantage over classical ones without being universal quantum computers, a state of affairs dubbed quantum speedup, or sometimes "quantum computational supremacy". The known schemes heavily rely on mathematical assumptions that are plausible but unproven, prominently results on anticoncentration of random prescriptions. In this work, we aim at closing the gap by proving two anticoncentration theorems and accompanying hardness results, one for circuit-based schemes, the other for quantum quench-type schemes for quantum simulations. Compared to the few other known such results, these results give rise to a number of comparably simple, physically meaningful and resource-economical schemes showing a quantum speedup in one and two spatial dimensions. At the heart of the analysis are tools of unitary designs and random circuits that allow us to conclude that universal random circuits anticoncentrate as well as an embedding of known circuit-based schemes in a 2D translation-invariant architecture.

Materialart: Online-Ressource

ISSN: 2521-327X

URL: Journal

URL: Article

DOI: 10.22331/q

DOI: 10.22331/q-2018-05-22-65

Sprache: Englisch

Verlag: Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften

Publikationsdatum: 2018

ZDB Id: 2931392-2

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9

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Stochastic gradient descent for hybrid quantum-classical optimization

Sweke, Ryan ; Wilde, Frederik ; Meyer, Johannes ; [weitere]

Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften ; 2020

In: Quantum Vol. 4 ( 2020-08-31), p. 314-

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In: Quantum, Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften, Vol. 4 ( 2020-08-31), p. 314-

Kurzfassung: Within the context of hybrid quantum-classical optimization, gradient descent based optimizers typically require the evaluation of expectation values with respect to the outcome of parameterized quantum circuits. In this work, we explore the consequences of the prior observation that estimation of these quantities on quantum hardware results in a form of s t o c h a s t i c gradient descent optimization. We formalize this notion, which allows us to show that in many relevant cases, including VQE, QAOA and certain quantum classifiers, estimating expectation values with k measurement outcomes results in optimization algorithms whose convergence properties can be rigorously well understood, for any value of k . In fact, even using single measurement outcomes for the estimation of expectation values is sufficient. Moreover, in many settings the required gradients can be expressed as linear combinations of expectation values -- originating, e.g., from a sum over local terms of a Hamiltonian, a parameter shift rule, or a sum over data-set instances -- and we show that in these cases k -shot expectation value estimation can be combined with sampling over terms of the linear combination, to obtain ``doubly stochastic'' gradient descent optimizers. For all algorithms we prove convergence guarantees, providing a framework for the derivation of rigorous optimization results in the context of near-term quantum devices. Additionally, we explore numerically these methods on benchmark VQE, QAOA and quantum-enhanced machine learning tasks and show that treating the stochastic settings as hyper-parameters allows for state-of-the-art results with significantly fewer circuit executions and measurements.

Materialart: Online-Ressource

ISSN: 2521-327X

URL: Journal

URL: Article

DOI: 10.22331/q

DOI: 10.22331/q-2020-08-31-314

Sprache: Englisch

Verlag: Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften

Publikationsdatum: 2020

ZDB Id: 2931392-2

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Randomizing multi-product formulas for Hamiltonian simulation

Faehrmann, Paul K. ; Steudtner, Mark ; Kueng, Richard ; [weitere]

Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften ; 2022

In: Quantum Vol. 6 ( 2022-09-19), p. 806-

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In: Quantum, Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften, Vol. 6 ( 2022-09-19), p. 806-

Kurzfassung: Quantum simulation, the simulation of quantum processes on quantum computers, suggests a path forward for the efficient simulation of problems in condensed-matter physics, quantum chemistry, and materials science. While the majority of quantum simulation algorithms are deterministic, a recent surge of ideas has shown that randomization can greatly benefit algorithmic performance. In this work, we introduce a scheme for quantum simulation that unites the advantages of randomized compiling on the one hand and higher-order multi-product formulas, as they are used for example in linear-combination-of-unitaries (LCU) algorithms or quantum error mitigation, on the other hand. In doing so, we propose a framework of randomized sampling that is expected to be useful for programmable quantum simulators and present two new multi-product formula algorithms tailored to it. Our framework reduces the circuit depth by circumventing the need for oblivious amplitude amplification required by the implementation of multi-product formulas using standard LCU methods, rendering it especially useful for early quantum computers used to estimate the dynamics of quantum systems instead of performing full-fledged quantum phase estimation. Our algorithms achieve a simulation error that shrinks exponentially with the circuit depth. To corroborate their functioning, we prove rigorous performance bounds as well as the concentration of the randomized sampling procedure. We demonstrate the functioning of the approach for several physically meaningful examples of Hamiltonians, including fermionic systems and the Sachdev–Ye–Kitaev model, for which the method provides a favorable scaling in the effort.

Materialart: Online-Ressource

ISSN: 2521-327X

URL: Journal

URL: Article

DOI: 10.22331/q

DOI: 10.22331/q-2022-09-19-806

Sprache: Englisch

Verlag: Verein zur Forderung des Open Access Publizierens in den Quantenwissenschaften

Publikationsdatum: 2022

ZDB Id: 2931392-2

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