Papers

Kyle Sherbert, F. Cerasoli, M. Buongiorno Nardelli·Apr 7, 2021

Quantum computers promise to revolutionize our ability to simulate molecules, and cloud-based hardware is becoming increasingly accessible to a wide body of researchers. Algorithms such as Quantum Phase Estimation and the Variational Quantum Eigensol...

M. Geller, Zoe Holmes, Patrick J. Coles +1 more·Apr 7, 2021

Currently available quantum hardware allows for small scale implementations of quantum machine learning algorithms. Such experiments aid the search for applications of quantum computers by benchmarking the near-term feasibility of candidate algorithm...

K. H. Lim, T. Haug, L. Kwek +1 more·Apr 5, 2021

Simulating quantum dynamics is expected to be performed more easily on a quantum computer than on a classical computer. However, the currently available quantum devices lack the capability to implement fault-tolerant quantum algorithms for quantum si...

T. Cohen, Henry Lamm, S. Lawrence +1 more·Apr 5, 2021

In the future, ab initio quantum simulations of heavy ion collisions may become possible with large-scale fault-tolerant quantum computers. We propose a quantum algorithm for studying these collisions by looking at a class of observables requiring dr...

Xiaozhen Ge, R. Wu·Apr 3, 2021

Highly accurate and robust control of quantum operations is vital for the realization of error-correctible quantum computation. In this paper, we show that the robustness of high-precision controls can be remarkably enhanced through sampling-based st...

Henrik Dreyer, M. Bejan, Etienne Granet·Apr 2, 2021

We show that the Variational Quantum-Classical Simulation algorithm admits a finite circuit depth scaling collapse when targeting the critical point of the transverse field Ising chain. The order parameter only collapses on one side of the transition...

Guillermo García-Pérez, M. Rossi, Boris Sokolov +5 more·Apr 1, 2021

Many prominent quantum computing algorithms with applications in fields such as chemistry and materials science require a large number of measurements, which represents an important roadblock for future real-world use cases. We introduce a novel appr...

Efekan Kökcü, Thomas Steckmann, Yan Wang +3 more·Apr 1, 2021

Simulating quantum dynamics on classical computers is challenging for large systems due to the significant memory requirements. Simulation on quantum computers is a promising alternative, but fully optimizing quantum circuits to minimize limited quan...

Yipeng Huang, Steven Holtzen, T. Millstein +2 more·Mar 31, 2021

Due to the unreliability and limited capacity of existing quantum computer prototypes, quantum circuit simulation continues to be a vital tool for validating next generation quantum computers and for studying variational quantum algorithms, which are...

Wen Wang, Ziyang You, Shuangpeng Wang +2 more·Mar 30, 2021

When considered as orthogonal bases in distinct vector spaces, the unit vectors of polarization directions and the Laguerre–Gaussian modes of polarization amplitude are inseparable, constituting a so-called classical entangled light beam. Equating th...

M. Steinberg, Sebastian Feld, C. G. Almudéver +2 more·Mar 29, 2021

The qubit-mapping problem aims to assign and route qubits of a quantum circuit onto an noisy intermediate-scale quantum (NISQ) device in an optimized fashion, with respect to some cost function. Finding an optimal solution to this problem is known to...

Yi-Hsiang Chen, A. Kalev, I. Hen·Mar 29, 2021

We present a quantum algorithm for the dynamical simulation of time-dependent Hamiltonians. Our method involves expanding the interaction-picture Hamiltonian as a sum of generalized permutations, which leads to an integral-free Dyson series of the ti...

Bruno Murta, J. Fern'andez-Rossier·Mar 29, 2021

The determination of the ground state of quantum many-body systems via digital quantum computers rests upon the initialization of a sufficiently educated guess. This requirement becomes more stringent the greater the system. Preparing physically-moti...

M. Könz, W. Lechner, H. Katzgraber +1 more·Mar 29, 2021

In order to treat all-to-all connected quadratic binary optimization problems (QUBO) with hardware quantum annealers, an embedding of the original problem is required due to the sparsity of the hardware's topology. Embedding fully-connected graphs - ...

L. Céleri, D. Huerga, F. Albarr'an-Arriagada +3 more·Mar 29, 2021

Simulating quantum many-body systems is a highly demanding task since the required resources grow exponentially with the dimension of the system. In the case of fermionic systems, this is even harder since nonlocal interactions emerge due to the anti...

Jing Yu, J. C. Retamal, M. Sanz +2 more·Mar 29, 2021

We propose a superconducting circuit architecture suitable for digital-analog quantum computing (DAQC) based on an enhanced NISQ family of nearest-neighbor interactions. DAQC makes a smart use of digital steps (single qubit rotations) and analog bloc...

Yosuke Ueno, Masaaki Kondo, Masamitsu Tanaka +2 more·Mar 26, 2021

Due to the low error tolerance of a qubit, detecting and correcting errors on it is essential for fault-tolerant quantum computing. Surface code (SC) associated with its decoding algorithm is one of the most promising quantum error correction (QEC) m...

Qunsheng Huang, C. Mendl·Mar 25, 2021

In the Bloch sphere picture, one finds the coefficients for expanding a single-qubit density operator in terms of the identity and Pauli matrices. A generalization to $n$ qubits via tensor products represents a density operator by a real vector of le...

J. V. Van Dyke, George S. Barron, N. Mayhall +2 more·Mar 24, 2021

Several quantum many-body models in one dimension possess exact solutions via the Bethe ansatz method, which has been highly successful for understanding their behavior. Nevertheless, there remain physical properties of such models for which analytic...

Kevissen Sellapillay, P. Arrighi, G. Molfetta·Mar 24, 2021

We build a quantum cellular automaton (QCA) which coincides with 1+1 QED on its known continuum limits. It consists in a circuit of unitary gates driving the evolution of particles on a one dimensional lattice, and having them interact with the gauge...