Papers

Xu-Chen Yang, Botao Wang, Jianpeng Liu +3 more·Mar 16, 2026

Particle statistics impose fundamental constraints on nonequilibrium quantum dynamics, yet it remains an open question whether anyonic statistics can lead to emergent dynamical scaling beyond the conventional Bose-Fermi paradigm. Here we investigate ...

Mushkan Sureka, Itay Ozer, Wenhua He +3 more·Mar 16, 2026

Programmable linear optical interferometers are a core primitive in optical signal processing, quantum information processing, and photonic computing. Existing photonic-integrated implementations realize arbitrary $M$-mode unitaries using Mach--Zehnd...

Mason L. Rhodes, Shivesh Pathak, Riley W. Chien·Mar 16, 2026

The optimal regularization of infinite-dimensional degrees of freedom is a central open problem in the tractable simulation of lattice gauge theories on quantum computers. Here, we consider regularizing the gauge field by replacing the gauge group $G...

Charlotte Franke, Dorian A. Gangloff·Mar 16, 2026

Quantum error correction (QEC) is indispensable for scalable quantum computing, but implementing it with minimal hardware overhead remains a central challenge. Large spin systems with collective degrees of freedom offer a promising route to reducing ...

Andy J. Goldschmidt, Emilio Peláez Cisneros, Ryan Sitler +3 more·Mar 16, 2026

We introduce crosstalk-robust gate sets, which are obtained using a novel, scalable optimal control problem exploiting locality. Through the suppression of pairwise quantum crosstalk, the gate sets enable robustness that extends to multi-qubit circui...

Dhruv Sood, Nilmani Mathur, Vikram Tripathi·Mar 16, 2026

The Harrow-Hassidim-Lloyd (HHL) algorithm is a quantum algorithm for solving systems of linear equations that, in principle, offers an exponential improvement in scaling with the system size compared to classical approaches. In this work, we investig...

Nikita A. Zemlevskiy·Mar 16, 2026

A scattering event in a quantum field theory is a coherent superposition of all processes consistent with its symmetries and kinematics. While real-time simulations have progressed toward resolving individual channels, existing approaches rely on kno...

Shixin Wu, Dawei Zhong, Todd A. Brun +1 more·Mar 16, 2026

Code-switching offers a route to universal, fault-tolerant quantum computation by circumventing the limitation implied by the Eastin-Knill theorem against a universal transversal gate set within a single quantum code. Here, we present a fault-toleran...

Yi-Ting Lee, Keerthi Kumaran, Bibek Pokharel +7 more·Mar 16, 2026

A central goal of quantum computation is the realistic simulation of quantum materials. Although quantum processors have advanced rapidly in scale and fidelity, it has remained unclear whether pre-fault-tolerant devices can perform quantitatively rel...

Tameem Albash, N. Tobias Jacobson·Mar 16, 2026

We propose a Monte Carlo based method for simulating the open system dynamics of multiple exchange-only (EO) qubits. In the EO encoding, the total spin projection quantum number along the $z$-axis of the three constituent spins remains unchanged unde...

Oumarou Oumarou, Pauline J. Ollitrault, Stefano Polla +1 more·Mar 16, 2026

We develop a framework that enables direct and meaningful comparison of two early fault-tolerant methods for the computation of eigenenergies, namely \gls{qksd} and \gls{spe}, within which both methods use expectation values of Chebyshev polynomials ...

Rahul Deshpande, Majid Kheirkhah, Chris Rich +12 more·Mar 16, 2026

Quantum annealing processors typically control qubits in unison, attenuating quantum fluctuations uniformly until the applied system Hamiltonian is diagonal in the computational basis. This simplifies control requirements, allowing annealing QPUs to ...

Daiwei Zhu, Miguel Angel Lopez-Ruiz, François-Henry Rouet +5 more·Mar 16, 2026

Solving large-scale sparse linear systems is a challenging computational task due to the introduction of non-zero elements, or "fill-in." The Graph Partitioning Problem (GPP) arises naturally when minimizing fill-in and accelerating solvers. In this ...

Eliott Rambeau, Loïc Lanco·Mar 16, 2026

Simplifying composite open quantum systems through model reduction is central to enable their analytical and numerical understanding. In this work, we introduce a self-consistent approach to eliminate the cavity degrees of freedom of cavity quantum e...

Leeseok Kim, Milad Marvian·Mar 16, 2026

We present a general framework for promoting first-order pulse sequences in quantum simulation to higher-order sequences that maintain robustness in the presence of finite pulse-width effects. Our approach maps a given first-order pulse sequence to a...

Anurag Anshu·Mar 16, 2026

Preparing low energy states is a central challenge in quantum computing and quantum complexity theory. Several known approaches to prepare low energy states often get stuck in suboptimal states, such as high energy eigenstates (or low variance high e...

Suman Aich, Ceren B. Dag, H. A. Fertig +2 more·Mar 16, 2026

Dipolar molecules in optical traps are a versatile platform for studying many-body phases of quantum matter in the presence of strong and long-range interactions. The dipolar interactions in such setups can be enabled by microwave driving opposite pa...

Tirtha Haque·Mar 16, 2026

In realistic hardware for quantum computation that possesses fault-tolerance, non-stationary noise and stochastic drift lead to logical failure from the temporal accumulation of errors, not from independent events. Static decoding and fixed calibrati...

Dibakar Sigdel, N. Panday·Mar 16, 2026

We present PhasorFlow, an open-source Python library introducing a computational paradigm operating on the $S^1$ unit circle. Inputs are encoded as complex phasors $z = e^{i\theta}$ on the $N$-Torus ($\mathbb{T}^N$). As computation proceeds via unita...

Muhammad Osama, Dimitrios Thanos, Alfons Laarman·Mar 15, 2026

We introduce new parallel algorithms for efficiently simulating stabilizer (Clifford) circuits on GPUs, with a focus on data-parallel tableau evolution and scalable handling of projective measurements. Our approach reformulates key bottlenecks in sta...