Papers

Peter Brearley, Sylvain Laizet·Dec 15, 2023

A quantum algorithm for solving the advection equation by embedding the discrete time-marching operator into Hamiltonian simulations is presented. One-dimensional advection can be simulated directly since the central finite-difference operator for fi...

Hugh G. A. Burton·Dec 15, 2023

The ability of quantum computers to overcome the exponential memory scaling of many-body problems is expected to transform quantum chemistry. Quantum algorithms require accurate representations of electronic states on a quantum device, but current ap...

Kimin Park, P. Marek, R. Filip·Dec 15, 2023

Quantum simulations provide means to probe challenging problems within controllable quantum systems. However, implementing or simulating deep-strong nonlinear couplings between bosonic oscillators on physical platforms remains a challenge. We present...

Ryosuke Matsuo, Kazuhisa Ogawa, Hidehisa Shiomi +6 more·Dec 14, 2023

This paper proposes a cost-effective architecture for an RF pulse generator for superconducting qubits. Most existing works use arbitrary waveform generators (AWGs) that require both a large amount of high-bandwidth memories and high-performance anal...

M. Cerezo, Martín Larocca, Diego Garc'ia-Mart'in +9 more·Dec 14, 2023

A large amount of effort has recently been put into understanding the barren plateau phenomenon. In this perspective article, we face the increasingly loud elephant in the room and ask a question that has been hinted at by many but not explicitly add...

Saul Gonzalez, Parfait Atchade-Adelomou·Dec 14, 2023

Quantum algorithms have begun to surpass classical ones in several computation fields, yet practical application remains challenging due to hardware and software limitations. Here, we introduce a quantum algorithm that quadratically improves spatial ...

Weiyuan Gong, Shuo Zhou, Tongyang Li·Dec 14, 2023

Digital quantum simulation has broad applications in approximating unitary evolution of Hamiltonians. In practice, many simulation tasks for quantum systems focus on quantum states in the low-energy subspace instead of the entire Hilbert space. In th...

Melven Röhrig-Zöllner, Manuel Joey Becklas, J. Thies +1 more·Dec 13, 2023

Tensor networks are a class of algorithms aimed at reducing the computational complexity of high-dimensional problems. They are used in an increasing number of applications, from quantum simulations to machine learning. Exploiting data parallelism in...

Abhinav Anand, Kenneth R. Brown·Dec 13, 2023

Efficiently calculating the low-lying eigenvalues of Hamiltonians, written as sums of Pauli operators, is a fundamental challenge in quantum computing. While various methods have been proposed to reduce the complexity of quantum circuits for this tas...

Yanqiu Wu, Eromanga Adermann, Chandra Thapa +3 more·Dec 13, 2023

Radio signal classification plays a pivotal role in identifying the modulation scheme used in received radio signals, which is essential for demodulation and proper interpretation of the transmitted information. Researchers have underscored the high ...

Rui Mao, Guojing Tian, Xiaoming Sun·Dec 13, 2023

In quantum chemistry, the variational quantum eigensolver (VQE) is a promising algorithm for molecular simulations on near-term quantum computers. However, VQEs using hardware-efficient circuits face scaling challenges due to the barren plateau probl...

Yao Zhou, Zhen-Qiang Yin, Yong-Guang Shan +5 more·Dec 11, 2023

Quantum key distribution (QKD) stands as a pioneering method for establishing information-theoretically secure communication channels by utilizing the principles of quantum mechanics. In the security proof of QKD, the phase error rate serves as a cri...

Nicholas Skjellum, Mohamed Shaban, Muhammad Ismail·Dec 10, 2023

Quantum information technology has the potential to revolutionize computing, communications, and security. To fully realize its potential, quantum processors with millions of qubits are needed, which are still far from being accomplished. Thus, it is...

SujayKumar Reddy, C. Mohan·Dec 9, 2023

Quantum Key Distribution (QKD) is a technique that enables secure communication between two parties by sharing a secret key. One of the most well-known QKD protocols is the BB84 protocol, proposed by Charles Bennett and Gilles Brassard in 1984. In th...

Luning Zhao, Q. Wang, Joshua J. Goings +5 more·Dec 9, 2023

The electron pair approximation offers an efficient variational quantum eigensolver (VQE) approach for chemistry simulations on quantum computers. With the number of entangling gates scaling quadratically with system size and a constant measurement o...

James D. Watson, Jacob Bringewatt, Alexander F. Shaw +3 more·Dec 8, 2023

Quantum computers offer the potential to simulate nuclear processes that are classically intractable. With the goal of understanding the necessary quantum resources to realize this potential, we employ state-of-the-art Hamiltonian-simulation methods,...

Tim Weaving, Alexis Ralli, Peter J. Love +2 more·Dec 7, 2023

We present an experimental demonstration of the Contextual Subspace Variational Quantum Eigensolver on superconducting hardware. Calculating the potential energy curve of molecular nitrogen proves challenging for many conventional quantum chemistry t...

Xiaotong Ni, Ziang Wang, Rui Chao +1 more·Dec 7, 2023

In the quest for fault-tolerant quantum computation using superconducting processors, accurate performance assessment and continuous design optimization stands at the forefront. To facilitate both meticulous simulation and streamlined design optimiza...

Rihito Sakurai, Oliver J. Backhouse, George H Booth +2 more·Dec 7, 2023

Predicting the properties of strongly correlated materials is a significant challenge in condensed matter theory. The widely used dynamical mean-field theory faces difficulty in solving quantum impurity models numerically. Hybrid quantum--classical a...

R. NirmalM., S. Yamijala, Kalpak Ghosh +2 more·Dec 7, 2023

We conducted a thorough evaluation of various state-of-the-art strategies to prepare the ground state wavefunction of a system on a quantum computer, specifically within the framework of variational quantum eigensolver (VQE). Despite the advantages o...