Making the

impossible possible

while staying true to the science

Our experts across multiple fields of study and research areas are conducting pivotal research and accelerating the path to universal, fully fault-tolerant quantum computing.

Research Areas

Delivering on the promise of quantum computing

Hardware

Hardware is the foundation on which everything else rests. Our world-class team is laser-focused on building the highest fidelity, most flexible hardware in existence.

Cryptography

Quantum computers have the potential to "break "modern cryptography as we know it. We are working to keep your data safe in a post-quantum world

Chemistry

By simulating chemical systems at an atomic level, our team is solving complex chemical problems ranging from materials design to battery-solvent degradation.

AI/Machine Learning

Quantum AI and machine learning will look a lot different from the classical AI we’re used to. Our team remains on the cutting-edge of this emerging field.

Quantum Information Science

Like computer science, quantum information science is at the core of how our hardware works. We are making strides in fault tolerance, algorithms, and more.

Physics

In the words of Richard Feynman, “If you want to make a simulation of nature, you 'd better make it quantum mechanical.” Our teams are doing just that, working on everything from Hamiltonian simulation to high-energy physics.

Computer Science

It goes without saying that computer science and algorithms are at the heart of our machines. We work on everything from algorithms you can use tomorrow to studies of what it will take to perform things we can barely imagine.

Mathematics

We both use and study mathematics with our computers, from using category theory to developing new tools in natural language processing to solving pernicious problems in knot theory that are classically intractable.

Technical blog

Blog
June 10, 2026
Quantinuum 's Fault-Tolerance Advantage: Turning Quantum Reliability into Commercial Usefulness
Blog
March 16, 2026
We’re Using AI to Discover New Quantum Algorithms
Blog
March 4, 2026
Skinny Logic: Quantum Codes Go on a Diet

Research publications

Thank you! Your submission has been received!
Oops! Something went wrong while submitting the form.
Nature
十二月 2025
Hardware
All

量子纠错达到表面码阈值以下

R. Acharya et al.

Nature Reviews Physics
十二月 2025
Hardware
All

量子纠错量子比特现在优于最好的物理量子比特

R. Acharya et al.

Nature Photonics
十一月 2025
Physics
All

在两个量子网络节点之间建立长程纠缠链接

M. Pompili et al.

arXiv
十月 2025
Quantum Information Science
All

逻辑量子计算的进展

D. Hayes et al.

Nature
九月 2025
Quantum Error Correction
All

用量子 LDPC 码展示稳定、高保真度的纠错

S. Xu et al.

Nature Machine Intelligence
八月 2025
AI and Machine Learning
All

AI 驱动的新型量子算法发现

R. Lawrence et al.

Nature Computational Science
六月 2025
Chemistry
All

化学模拟中的实用量子优势

I. Khan et al.

PRX Quantum
五月 2025
Computer Science and Algorithms
All

金融市场组合优化的量子算法

P. Nation et al.

Physical Review Letters
四月 2025
Hardware
All

使用 Helios 处理器的容错量子计算

C. Ransford et al.

Quantum
三月 2025
Quantum Information Science
All

量子 LDPC 码的纠缠提纯

C. Ballance et al.

Nature Communications
二月 2025
Hardware
All

离子阱量子计算机中的高保真双量子比特门

C. Ransford et al.

PRX Quantum
一月 2025
Computer Science and Algorithms
All

基于变分方法的大规模量子优化

S. Benjamin et al.

Quantum Machine Intelligence
十二月 2024
AI and Machine Learning
All

用于分子性质预测的量子增强机器学习

R. Singh et al.

Physical Review B
十一月 2024
Physics
All

量子 LDPC 码中的相变

S. Xu et al.

IEEE Information Theory
十月 2024
Mathematics
All

量子纠错码的新界限

M. F. Ledeman et al.

Research publications

Thank you! Your submission has been received!
Oops! Something went wrong while submitting the form.
Nature
June 2026
Hardware
All
Physics
All
Quantum Error Correction
All
Quantum Information Science
All
Quantinuum Systems
All
Improved quantum processor logical error rates via correction and detection
A. Paetznick, B. W. Reichardt, M. P. da Silva, C. Ryan-Anderson, D. Aasen, J. M. Bello-Rivas, J. P. Campora III, R. Chao, A. Chernoguzov, W. van Dam, J. M. Dreiling, C. Foltz, F. Frachon, J. P. Gaebler, T. M. Gatterman, L. Grans-Samuelsson, D. Gresh, D. Hayes, N. Hewitt, C. Holliman, C. V. Horst, J. Johansen, D. Lucchetti, Y. Matsuoka, M. Mills, S. A. Moses, B. Neyenhuis, A. Paz, J. Pino, P. Siegfried, A. Sundaram, D. Tom, Z. Wang, S. J. Wernli, M. Zanner, R. P. Stutz &K. M. Svore
ArXiv
March 2026
AI and Machine Learning
All
Computer Science and Algorithms
All
Chemistry
All
Automated near-term quantum algorithm discovery for molecular ground states
Fabian Finger, Frederic Rapp, Pranav Kalidindi, Kerry He, Kante Yin, Alexander Koziell-Pipe, David Zsolt Manrique, Gabriel Greene-Diniz, Stephen Clark, Hamza Fawzi, Bernardino Romera Paredes, Alhussein Fawzi, Konstantinos Meichanetzidis
ArXiv
February 2026
Hardware
All
Physics
All
Quantum Information Science
All
Computing with many encoded logical qubits beyond break-even
Shival Dasu, Matthew DeCross, Andrew Y. Guo, Ali Lavasani, Jan Behrends, Asmae Benhemou, Yi-Hsiang Chen, Karl Mayer, Chris N. Self, Selwyn Simsek, Basudha Srivastava, M.S. Allman, Jake Arkinstall, Justin G. Bohnet, Nathaniel Q. Burdick, J.P. Campora III, Alex Chernoguzov, Samuel F. Cooper, Robert D. Delaney, Joan M. Dreiling, Brian Estey, Caroline Figgatt, Cameron Foltz, John P. Gaebler, Alex Hall, Craig A. Holliman, Ali A. Husain, Akhil Isanaka, Colin J. Kennedy, Yuga Kodama, Nikhil Kotibhaskar, Nathan K. Lysne, Ivaylo S. Madjarov, Michael Mills, Alistair R. Milne, Brian Neyenhuis, Annie J. Park, Anthony Ransford, Adam P. Reed, Steven J. Sanders, Charles H. Baldwin, David Hayes, Ben Criger, Andrew C. Potter, David Amaro
ArXiv
January 2026
Physics
All
Computer Science and Algorithms
All
Reinforcement Learning for Adaptive Composition of Quantum Circuit Optimisation Passes
Daniel Mills, Ifan Williams, Jacob Swain, Gabriel Matos, Enrico Rinaldi, Alexander Koziell-Pipe
ArXiv
January 2026
Hardware
All
Chemistry
All
Quantum-HPC hybrid computation of biomolecular excited-state energies
Kentaro Yamamoto, Riku Masui, Takahito Nakajima, Miwako Tsuji, Mitsuhisa Sato, Peter Schow, Lukas Heidemann, Matthew Burke, Philipp Seitz, Oliver J. Backhouse, Juan W. Pedersen, John Children, Craig Holliman, Nathan Lysne, Daichi Okuno, Seyon Sivarajah, David Muñoz Ramo, Alex Chernoguzov, Ross Duncan
Arxiv
January 2026
Computer Science and Algorithms
All
A nearly linear-time Decoded Quantum Interferometry algorithm for the Optimal Polynomial Intersection problem
Ansis Rosmanis
ArXiv
November 2025
Chemistry
All
Physics
All
Computer Science and Algorithms
All
Quantum Information Science
All
Shorter width truncated Taylor series for Hamiltonian dynamics simulations
Michelle Wynne Sze, David Zsolt Manrique, David Muñoz Ramo, Nathan Fitzpatrick
ArXiv
November 2025
Hardware
All
Quantinuum Systems
All
Physics
All
Computer Science and Algorithms
All
Mathematics
All
Helios: A 98-qubit trapped-ion quantum computer
Anthony Ransford, M.S. Allman, Jake Arkinstall, J.P. Campora III, Samuel F. Cooper, Robert D. Delaney, Joan M. Dreiling, Brian Estey, Caroline Figgatt, Alex Hall, Ali A. Husain, Akhil Isanaka, Colin J. Kennedy, Nikhil Kotibhaskar, Ivaylo S. Madjarov, Karl Mayer, Alistair R. Milne, Annie J. Park, Adam P. Reed, Riley Ancona, Molly P. Andersen, Pablo Andres-Martinez, Will Angenent, Liz Argueta, Benjamin Arkin, Leonardo Ascarrunz, William Baker, Corey Barnes, John Bartolotta, Jordan Berg, Ryan Besand, Bryce Bjork, Matt Blain, Paul Blanchard, Robin Blume-Kohout, Matt Bohn, Agustin Borgna, Daniel Y. Botamanenko, Robert Boutelle, Natalie Brown, Grant T. Buckingham, Nathaniel Q. Burdick, William Cody Burton, Varis Carey, Christopher J. Carron, Joe Chambers, John Children, Victor E. Colussi, Steven Crepinsek, Andrew Cureton, Joe Davies, Daniel Davis, Matthew DeCross, David Deen, Conor Delaney, Davide DelVento, B.J. DeSalvo, Jason Dominy, Ross Duncan, Vanya Eccles, Alec Edgington, Neal Erickson, Stephen Erickson, Christopher T. Ertsgaard, Bruce Evans, Tyler Evans, Maya I. Fabrikant, Andrew Fischer, Cameron Foltz, Michael Foss-Feig, David Francois, Brad Freyberg, Charles Gao, Robert Garay, Jane Garvin, David M. Gaudiosi, Christopher N. Gilbreth, Josh Giles, Erin Glynn, Jeff Graves, Azure Hansen, David Hayes, Lukas Heidemann, Bob Higashi, Tyler Hilbun, Jordan Hines, Ariana Hlavaty, Kyle Hoffman, Ian M. Hoffman, Craig Holliman, Isobel Hooper, Bob Horning, James Hostetter, Daniel Hothem, Jack Houlton, Jared Hout, Ross Hutson, Ryan T. Jacobs, Trent Jacobs, Melf Johannsen et al. (86 additional authors not shown)
ArXiv
November 2025
Hardware
All
Physics
All
Computer Science and Algorithms
All
Mathematics
All
Quantum Information Science
All
Realization of a Quantum Streaming Algorithm on Long-lived Trapped-ion Qubits
Pradeep Niroula, Shouvanik Chakrabarti, Steven Kordonowy, Niraj Kumar, Sivaprasad Omanakuttan, Michael A. Perlin, M.S. Allman, J.P. Campora III, Alex Chernoguzov, Samuel F. Cooper, Robert D. Delaney, Joan M. Dreiling, Brian Estey, Caroline Figgatt, Cameron Foltz, John P. Gaebler, Alex Hall, Ali A. Husain, Akhil Isanaka, Colin J. Kennedy, Nikhil Kotibhaskar, Ivaylo S. Madjarov, Michael Mills, Alistair R. Milne, Louis Narmour, Annie J. Park, Adam P. Reed, Kartik Singhal, Anthony Ransford, Justin G. Bohnet, Brian Neyenhuis, Rob Otter, Ruslan Shaydulin