Papers

B. Fernandez, R. Bloot, Marcelo A. Moret·Mar 28, 2025

Binary optimization problems are emerging as potential candidates for useful applications of quantum computing. Among quantum algorithms, the quantum approximate optimization algorithm (QAOA) is currently considered the most promising method to obtai...

Ohad Kimelfeld, Boulat A. Bash, Uzi Pereg·Mar 26, 2025

We determine the covert capacity for entanglement generation over a noisy quantum channel. While secrecy guarantees that the transmitted information remains inaccessible to an adversary, covert communication ensures that the transmission itself remai...

Minzhao Liu, R. Shaydulin, Pradeep Niroula +29 more·Mar 26, 2025

Although quantum computers can perform a wide range of practically important tasks beyond the abilities of classical computers1,2, realizing this potential remains a challenge. An example is to use an untrusted remote device to generate random bits t...

Rosemary Barrass, Harsha Nagarajan, Carleton Coffrin·Mar 24, 2025

The recent advent of commercially available quantum annealing hardware (QAH) has expanded opportunities for research into quantum annealing-based algorithms. In the domain of power systems, this advancement has driven increased interest in applying s...

Zhanchuan Zhang, Jeth Arunseangroj, Wenchao Xu·Mar 21, 2025

Neutral-atom arrays are a leading platform for quantum technologies, offering a promising route toward large-scale, fault-tolerant quantum computing. We propose a novel quantum processing architecture based on dual-type, dual-element atom arrays, whe...

Jan Apol'in, D. P. Nadlinger·Mar 21, 2025

Photonically-interconnected matter qubit systems have wide-ranging applications across quantum science and technology, with entanglement between distant qubits serving as a universal resource. While state-of-the-art heralded entanglement generation p...

Chao Lu, Muralikrishnan Gopalakrishanan Meena, Kalyana Chakravarthi Gottiparthi·Mar 19, 2025

Quantum Phase Estimation (QPE) is a cardinal algorithm in quantum computing that plays a crucial role in various applications, including cryptography, molecular simulation, and solving systems of linear equations. However, the standard implementation...

Y. Matsumoto, M. D. Smet, L. Tryputen +6 more·Mar 19, 2025

The scalability and power of quantum computing architectures depend critically on high-fidelity operations and robust and flexible qubit connectivity. In this respect, mobile qubits are particularly attractive as they enable dynamic and reconfigurabl...

Abhinav Verma, Jacob Hastrup, Jonas S. Neergaard-Nielsen +1 more·Mar 18, 2025

Scalable interferometers lie at the heart of photonic quantum technologies, but their expansion has been fundamentally limited by optical losses that grow with circuit depth. Here, we introduce and experimentally demonstrate a measurement-induced arc...

Guedong Park, Jinzhao Sun, Hyunseok Jeong·Mar 17, 2025

Graph and hypergraph states are important resource states for realizing universal quantum computation and diverse non-local physical phenomena. However, noise learning in such states is challenging due to their large entanglement and magic. This work...

Cenk Tuysuz, Abhijith Jayakumar, Carleton Coffrin +2 more·Mar 16, 2025

Analog quantum computation is an attractive paradigm for the simulation of time-dependent quantum systems. Programmable analog quantum computers have been realized in hardware using a variety of physical principles, including neutral-atom and superco...

Nicolas Dirnegger, Moein Malekakhlagh, Vikesh Siddhu +5 more·Mar 13, 2025

A promising quantum computing architecture comprises modules of superconducting quantum processors linked via optical channels using quantum transducers. As quantum transducer hardware improves, a need has arisen to understand the quantitative relati...

E. M. Fernandes, L. Sanz, F. M. Souza·Mar 13, 2025

We examine the impact of time-dependent gate voltages on entanglement generation in two capacitively coupled charge qubits, with single-electron injection triggered on demand. The gate voltage modulates the tunnel coupling between the qubits and elec...

Juan Cumbrado, R. Puebla·Mar 13, 2025

The interconnection of quantum nodes holds great promise for scaling up quantum computing units and enabling information processing across long-distance quantum registers. Such quantum networks can be realized using superconducting qubits linked by w...

I. Zalivako, A. Chernyavskiy, Anastasiia S. Nikolaeva +10 more·Mar 13, 2025

Abstract Factoring integers is considered as a computationally hard problem for classical methods, whereas there exists polynomial-time Shor’s quantum algorithm for solving this task. However, requirements for running Shor’s algorithm for realistic t...

Yanyan Cai, Xiaowei Deng, Libo Zhang +8 more·Mar 11, 2025

Quantum squeezed states, with biased quantum noise, have been widely utilized in quantum sensing and quantum error correction applications. However, generating and manipulating these nonclassical states with a large squeezing degree typically require...

Ziang Yin, Aashish Poonia, Ashish Reddy Bommana +7 more·Mar 10, 2025

The future of artificial intelligence (AI) acceleration demands a paradigm shift beyond the limitations of purely electronic or photonic architectures. Photonic analog computing delivers unmatched speed and parallelism but struggles with data movemen...

C. O. Edet, K. Słowik, N. Ali +2 more·Mar 8, 2025

Controlling heat flow at the quantum level is a key challenge for next-generation quantum technologies, including thermal management and quantum information processing. Here, we investigate quantum heat transport in an asymmetrically driven hybrid ma...

Amana Liaqat, Ahmed Darwish, Adrian Roman +1 more·Mar 8, 2025

Scaling quantum computing requires networked systems, leveraging HPC for distributed simulation now and quantum networks in the future. Quantum datacenters will be the primary access point for users, but current approaches demand extensive manual dec...

Takeaki Miyamura, Y. Sunada, Zhiling Wang +3 more·Mar 7, 2025

Scaling up a superconducting quantum computer will likely require quantum communication between remote chips, which can be implemented using an itinerant microwave photon in a transmission line. To realize high-fidelity communication, it is essential...