📊 Today's Data Collection
News items: 15 articles gathered
Technology papers: 10 papers fetched
Company papers: 8 papers from major players
Highlighted papers: 5 papers collected
Total sources: 5 data feeds processed
📰 News Items
−📄 Technology Papers
−Capturing the Page Curve and Entanglement Dynamics of Black Holes in Quantum Computers
Talal Ahmed Chowdhury, Kwangmin Yu, Muhammad Asaduzzaman, Raza Sabbir Sufian • Published: 2024-12-19
Quantum computers are emerging technologies expected to become important
tools for exploring various aspects of fundamental physics in the future.
Therefore, we pose the question of whether quantum computers can help us to
study the Page curve and the black hole information dynamics, which has been a
key focus in fundamental physics. In this regard, we rigorously examine the
qubit transport model,...
Quantum Computing Universal Thermalization Dynamics in a (2+1)D Lattice Gauge Theory
Niklas Mueller, Tianyi Wang, Or Katz, Zohreh Davoudi, Marko Cetina • Published: 2024-07-31
Simulating non-equilibrium phenomena in strongly-interacting quantum
many-body systems, including thermalization, is a promising application of
near-term and future quantum computation. By performing experiments on a
digital quantum computer consisting of fully-connected optically-controlled
trapped ions, we study the role of entanglement in the thermalization dynamics
of a $Z_2$ lattice gauge the...
Full programmable quantum computing with trapped-ions using semi-global fields
Yakov Solomons, Yotam Kadish, Lee Peleg, Jonathan Nemirovsky, Amit Ben Kish, Yotam Shapira • Published: 2025-09-17
Trapped-ion quantum computing can utilize all motional modes of the
ion-crystal, to entangle multiple qubits simultaneously, enabling universal
computation with multi-qubit gates supplemented by single-qubit rotations.
Using multiple tones to drive each ion individually induces Ising-type
interactions, forming a multi-qubit gate, where the coupling matrix of all ion
pairs is fully controllable. Th...
Quantum Utility in Simulating the Real-time Dynamics of the Fermi-Hubbard Model using Superconducting Quantum Computers
Talal Ahmed Chowdhury, Vladimir Korepin, Vincent R. Pascuzzi, Kwangmin Yu • Published: 2025-09-17
The Fermi-Hubbard model is a fundamental model in condensed matter physics
that describes strongly correlated electrons. On the other hand, quantum
computers are emerging as powerful tools for exploring the complex dynamics of
these quantum many-body systems. In this work, we demonstrate the quantum
simulation of the one-dimensional Fermi-Hubbard model using IBM's
superconducting quantum computers...
Mitigating the sign problem by quantum computing
Kwai-Kong Ng, Min-Fong Yang • Published: 2025-09-16
The notorious sign problem severely limits the applicability of quantum Monte
Carlo (QMC) simulations, as statistical errors grow exponentially with system
size and inverse temperature. A recent proposal of a quantum-computing
stochastic series expansion (qc-SSE) method suggested that the problem could be
avoided by introducing constant energy shifts into the Hamiltonian. Here we
critically examin...
First Practical Experiences Integrating Quantum Computers with HPC Resources: A Case Study With a 20-qubit Superconducting Quantum Computer
Eric Mansfield, Stefan Seegerer, Panu Vesanen, Jorge Echavarria, Burak Mete, Muhammad Nufail Farooqi, Laura Schulz • Published: 2025-09-16
Incorporating Quantum Computers into High Performance Computing (HPC)
environments (commonly referred to as HPC+QC integration) marks a pivotal step
in advancing computational capabilities for scientific research. Here we report
the integration of a superconducting 20-qubit quantum computer into the HPC
infrastructure at Leibniz Supercomputing Centre (LRZ), one of the first
practical implementatio...
Quantum Computing Tools for Fast Detection of Gravitational Waves in the Context of LISA Space Mission
Maria-Catalina Isfan, Laurentiu-Ioan Caramete, Ana Caramete, Daniel Tonoiu, Alexandru Nicolin-Zaczek • Published: 2025-09-16
The field of gravitational wave (GW) detection is progressing rapidly, with
several next-generation observatories on the horizon, including LISA. GW data
is challenging to analyze due to highly variable signals shaped by source
properties and the presence of complex noise. These factors emphasize the need
for robust, advanced analysis tools. In this context, we have initiated the
development of a ...
Extension of the Jordan-Wigner mapping to nonorthogonal spin orbitals for quantum computing application to valence bond approaches
Alessia Marruzzo, Mosè Casalegno, Piero Macchi, Fabio Mascherpa, Bernardino Tirri, Guido Raos, Alessandro Genoni • Published: 2025-09-16
Quantum computing offers a promising platform to address the computational
challenges inherent in quantum chemistry, and particularly in valence bond (VB)
methods, which are chemically appealing but suffer from high computational cost
due to the use of nonorthogonal orbitals. While various fermionic-to-spin
mappings exist for orthonormal spin orbitals, such as the widely used
Jordan-Wigner transfo...
Measurement-free code-switching for low overhead quantum computation using permutation invariant codes
Yingkai Ouyang, Yumang Jing, Gavin K. Brennen • Published: 2024-11-20
Transversal gates on quantum error correction codes have been a promising
approach for fault-tolerant quantum computing, but are limited by the
Eastin-Knill no-go theorem. Existing solutions like gate teleportation and
magic state distillation are resource-intensive. We present a measurement-free
code-switching protocol for universal quantum computation, switching between a
stabiliser code for tra...
Evaluating Variational Quantum Circuit Architectures for Distributed Quantum Computing
Leo Sünkel, Jonas Stein, Jonas Nüßlein, Tobias Rohe, Claudia Linnhoff-Popien • Published: 2025-09-15
Scaling quantum computers, i.e., quantum processing units (QPUs) to enable
the execution of large quantum circuits is a major challenge, especially for
applications that should provide a quantum advantage over classical algorithms.
One approach to scale QPUs is to connect multiple machines through quantum and
classical channels to form clusters or even quantum networks. Using this
paradigm, severa...
🏢 Company Papers
−Chaotic scattering and heating in cold ion-atom collisions: two sides of the same coin
Saajid Chowdhury, Jesús Pérez Ríos • Published: 2025-09-18
We study the classical dynamics of a Paul-trapped ion in a low-density bath
of atoms above 1 $\mu\textrm{K}$. We find that lower energy collisions with
more massive atoms, especially at energies less than the initial micromotion
heating, are more likely to form atom-ion complexes. These complexes evolve in
a fractal structure for every scattering observable, showing non-hyperbolic
chaotic dynamics...
Magnetic-Field and Temperature Limits of a Kinetic-Inductance Traveling-Wave Parametric Amplifier
Lucas M. Janssen, Farzad Faramarzi, Henry G. LeDuc, Sahil Patel, Gianluigi Catelani, Peter K. Day, Yoichi Ando, Christian Dickel • Published: 2025-09-18
Kinetic-inductance traveling-wave parametric amplifiers (KI-TWPAs) offer
broadband near-quantum-limited amplification with high saturation power. Due to
the high critical magnetic fields of high-kinetic-inductance materials,
KI-TWPAs should be resilient to magnetic fields. In this work, we study how
magnetic field and temperature affect the performance of a KI-TWPA based on a
thin-NbTiN inverse mi...
Exploring dark matter with quantum-enhanced haloscopes and time projection chambers
David Díez-Ibáñez • Published: 2025-09-18
This thesis explores experimental and theoretical approaches to dark matter
detection, from gas-based detectors to quantum sensors, tackling the challenge
of identifying dark matter, which makes up 27% of the Universe's energy. It
reviews astrophysical and cosmological evidence, highlights the Standard
Model's limitations, and motivates searches for WIMPs, axions, and dark photons
through direct, ...
Capturing the Page Curve and Entanglement Dynamics of Black Holes in Quantum Computers
Talal Ahmed Chowdhury, Kwangmin Yu, Muhammad Asaduzzaman, Raza Sabbir Sufian • Published: 2024-12-19
Quantum computers are emerging technologies expected to become important
tools for exploring various aspects of fundamental physics in the future.
Therefore, we pose the question of whether quantum computers can help us to
study the Page curve and the black hole information dynamics, which has been a
key focus in fundamental physics. In this regard, we rigorously examine the
qubit transport model,...
Coupling 4H-Silicon Carbide spins to a microwave resonator at milli-Kelvin temperature
Ali Fawaz, Jeremy Bourhill, Stefania Castelletto, Hiroshi Abe, Takeshi Ohshima, Michael Tobar, Thomas Volz, Maxim Goryachev, Sarath Raman Nair • Published: 2025-09-18
Coupling microwave cavity modes with spin qubit transitions is crucial for
enabling efficient qubit readout and control, long-distance qubit coupling,
quantum memory implementation, and entanglement generation. We experimentally
observe the coupling of different spin qubit transitions in Silicon Carbide
(SiC) material to a 3D microwave (MW resonator mode around 12.6~GHz at a
temperature of 10~mK. ...
Forecasting in small open emerging economies Evidence from Thailand
Paponpat Taveeapiradeecharoen, Nattapol Aunsri • Published: 2025-09-18
Forecasting inflation in small open economies is difficult because limited
time series and strong external exposures create an imbalance between few
observations and many potential predictors. We study this challenge using
Thailand as a representative case, combining more than 450 domestic and
international indicators. We evaluate modern Bayesian shrinkage and factor
models, including Horseshoe re...
Proposal of cavity quantum acoustodynamics platform based on Lithium Niobate-on-Sapphire chip
Xin-Biao Xu, Lintao Xiao, Bo Zhang, Weiting Wang, Jia-Qi Wang, Yu Zeng, Yuan-Hao Yang, Bao-Zhen Wang, Xiaoxuan Pan, Guang-Can Guo, Luyan Sun, Chang-Ling Zou • Published: 2025-09-18
A scalable hybrid cavity quantum acoustodynamics (QAD) platform is proposed.
The architecture integrates superconducting transmon qubits with phononic
integrated circuits on a single chip made by lithium niobate-on-sapphire
substrate. The platform supports tightly confined and guided phononic modes in
unsuspended waveguides and microring structures, while the superconducting
qubits reside on the s...
The superconducting grid-states qubit
Long B. Nguyen, Hyunseong Kim, Dat T. Le, Thomas Ersevim, Sai P. Chitta, Trevor Chistolini, Christian Jünger, W. Clarke Smith, T. M. Stace, Jens Koch, David I. Santiago, Irfan Siddiqi • Published: 2025-09-18
Decoherence errors arising from noisy environments remain a central obstacle
to progress in quantum computation and information processing. Quantum error
correction (QEC) based on the Gottesman-Kitaev-Preskill (GKP) protocol offers a
powerful strategy to overcome this challenge, with successful demonstrations in
trapped ions, superconducting circuits, and photonics. Beyond active QEC, a
compelling...
📚 Highlighted Papers
−Quantum enhanced Monte Carlo simulation for photon interaction cross sections
Authors: Euimin Lee, Sangmin Lee, Shiho Kim • Submitted: Submitted • arXiv: arXiv:2502.14374
Abstract: â¦as the dominant attenuation mechanism, we demonstrate that our approach reproduces classical probability distributions with high fidelity. Simulation results obtained via the IBM Qiskit quantum simulator reveal a quadratic speedup in amplitude estimation compared to conventional Monte C...
Time-adaptive single-shot crosstalk detector on superconducting quantum computer
Authors: Haiyue Kang, Benjamin Harper, Muhammad Usman, Martin Sevior • Submitted: Submitted • arXiv: arXiv:2502.14225
Abstract: â¦in two scenarios: simulation using an artificial noise model with gate-induced crosstalk and always-on idlings channels; and the simulation using noise sampled from an IBM quantum computer parametrised by the reduced HSA error model. The presented results show our method's efficacy hing...
Quantum simulation of a qubit with non-Hermitian Hamiltonian
Authors: Anastashia Jebraeilli, Michael R. Geller • Submitted: Submitted • arXiv: arXiv:2502.13910
Abstract: â¦-broken regime surrounding an exceptional point. Quantum simulations are carried out using IBM superconducting qubits. The results underscore the potential for variational quantum circuits and machine learning to push the boundaries of quantum simulation, offering new methods for explor...
Comment on "Energy-speed relationship of quantum particles challenges Bohmian mechanics"
Aurélien Drezet, Dustin Lazarovici, Bernard Michael Nabet
In their recent paper [Nature 643, 67 (2025)], Sharaglazova et al. report an optical microcavity experiment yielding an "energy-speed relationship" for quantum particles in evanescent states, which they infer from the observed population transfer between two coupled waveguides. The authors argue tha...