Papers

Geng Zhao, Yun Chen, Jiayuang Zhang +2 more·Dec 1, 2025

We propose an experimentally accessible scheme for realizing tunable nonclassical light in cavity-coupled reconfigurable atomic arrays. By coherently controlling the collective interference phase, the system switches from single-photon blockade to hi...

V. A. Tomilin, A. M. Rostom, L. V. Il'ichov·Dec 1, 2025

We consider a problem of geometric phase generation in a system of two interacting bosons confined in a narrow ring potential with a localized defect. Geometric phase emerges from variation of parameters of the defect. Particle interaction is taken i...

Tatsuki Sonoyama, Tomoki Sano, Takumi Suzuki +13 more·Nov 29, 2025

We propose a pulse and continuous wave (CW) hybrid architecture of continuous-variable measurement-based optical quantum computation utilizing the strengths of both pulsed and CW light. In this architecture, input and ancillary non-Gaussian quantum s...

Mahboob Ul Haq·Nov 29, 2025

This work presents a comprehensive theoretical comparison between absorption-based and electromagnetically induced transparency (EIT)-based atomic gradient sensing in a four-level tripod system. Both methods were evaluated under identical and optimiz...

Hui Zhong, Jiachen Shen, Lei Fan +4 more·Nov 29, 2025

Distributed quantum computing (DQC) is widely regarded as a promising approach to overcome quantum hardware limitations. A major challenge in DQC lies in reducing the communication cost introduced by remote CNOT gates, which are significantly slower ...

Carl Thomas, Rebecca Munk, Boris Blinov·Nov 28, 2025

Control of the temporal waveform of photons produced during spontaneous emission from single quantum emitters provides a crucial tool in the establishment of hybrid quantum systems, optimization of quantum state transfer protocols and mitigation of e...

Alessio Belfiglio, Roberto Franzosi, Orlando Luongo·Nov 28, 2025

We discuss some entanglement features associated with cubic non-Gaussian perturbations in single-field inflationary scenarios. We adopt standard momentum-space techniques to show how multipartite entanglement arises for inflationary perturbation mode...

O. A. Kalenyuk, S. I. Futimsky, I. A. Martynenko +5 more·Nov 28, 2025

The response of a MoRe-based superconducting resonator operating near 5 K to pulsed infrared irradiation is investigated, and the underlying physical mechanisms are analyzed. The device exhibits a pronounced nonlinear response dominated by nonequilib...

Adithya A. Vasista, Anushka Agrawal, Tanay Nag·Nov 28, 2025

We consider the three-spin Ising model to study the effect of three-spin interacting term on bi-partitie entanglement between adjacent spins. The three-dominated disordered region has tri-partite entanglement causing a vanishingly small concurrence, ...

Byoung-moo Ann, Sang-Jun Choi, Hee Chul Park +6 more·Nov 28, 2025

Recent studies find that even drives far below the superconducting gap frequency may cause drive-induced quasiparticle generation (QPG) across Josephson junctions (JJs) of superconducting qubits (SCQs), posing a serious concern for fault-tolerant sup...

Ratun Rahman, Dinh C. Nguyen·Nov 28, 2025

Variational Quantum Algorithms (VQAs) are becoming the primary computational primitive for next-generation quantum computers, particularly those embedded as resource-constrained accelerators in the emerging Quantum Internet of Things (QIoT). However,...

Robert Okuła, Piotr Mironowicz·Nov 27, 2025

Quantum technologies offer significant advancements in information processing and communication, notably in the domain of random number generation (RNG). The use of Bell inequalities enables users to certify the randomness of outputs produced by untr...

Teerawat Chalermpusitarak, Kai Schwennicke, Ivan Kassal +1 more·Nov 27, 2025

Harmonic oscillators are promising continuous-variable (CV) quantum resources because their infinite-dimensional Hilbert spaces allow for resource-efficient quantum computing and simulation. To reach their full potential, CV platforms need to be able...

Nishchay Suri, Zhihui Wang, Tanay Roy +2 more·Nov 26, 2025

We present a quantum sensing protocol for coupled qubit-oscillator systems that surpasses the standard quantum limit (SQL) by exploiting a geometrical phase. The signal is encoded in the geometrical phase that is proportional to the area enclosed in ...

Ashish Kakkar, Samuel Marsh, Yulun Wang +5 more·Nov 26, 2025

We propose and validate on real quantum computing hardware a new method for extended two-qubit gate set design, replacing iterative, fine calibration with fast characterization of a small number of gate parameters which are then tracked and corrected...

Ryo B. Tanaka, Goro Oohata, Takayuki Uozumi·Nov 26, 2025

We theoretically investigated how the quantum entanglement between the spin of the photoelectron and the polarization of the emitted X-ray photon depends on the excited core-level, using the 3$d\rightarrow\ $2$p$ and 3$d\rightarrow\ $3$p$ SPR-XEPECS ...

Akihiro Mizutani, Shun Kawakami, Go Kato·Nov 26, 2025

The decoy-state Bennett-Brassard 1984 (BB84) quantum key distribution (QKD) protocol is widely regarded as the de facto standard for practical implementations. On the receiver side, passive basis choice is attractive because it significantly reduces ...

P. Djorwé, R. Altuijri, A. J. Almalki +2 more·Nov 26, 2025

We propose a scheme to generate multi-paths entanglement in an optomechanical system by exploiting polarized electromagnetic fields and dark mode control. Our system consists of two mechanically coupled mechanical resonators, which are driven by a co...

Tianyi Hao, Joseph Sullivan, Sivaprasad Omanakuttan +2 more·Nov 26, 2025

Recent experimental progress in realizing surface code on hardware, including demonstrations of break-even logical memory on devices with up to hundreds of physical qubits, has materially advanced the prospects for fault-tolerant quantum computation....

Xiao-Xi Yao, Bo Zhang Yusuf Turek·Nov 26, 2025

The heralded optical parametric amplifier (OPA) has emerged as a promising tool for quantum state engineering. However, its potential has been limited to coherent state inputs. Here, we introduce a generalized heralded OPA protocol that unlocks a vas...