Quantum computing will revolutionize the way we work. That’s why we’ve spent more than a decade focused on ways to not only help architect this massive expansion of computational power and problem solving, but accelerate it, too.
As a leading technology company, we will do more than contribute: we will shape the adoption and integration of quantum information systems into our customers’ markets.
From collaboration to technology maturation to system integration, we’re ready to partner to create an exciting future.
Defined in nature by their atomic structure, our trapped-ion qubits can be uniformly manufactured and controlled more easily and quickly compared to alternative qubit technologies that do not directly use atoms. This is why we use the term “Nature’s Qubit”, for our systems - our qubits are all identical and defect-free.
High fidelity and high qubit count with error rates at the leading-edge of industry capability.
Dynamic qubits that can be rearranged and interacted to improve algorithm opportunities.
A century of control systems excellence for precise and stable operation.
After more than 130 years of innovation, our strengths in science, engineering and research, along with our domain and software expertise, allow us to offer our partners and customers a competitive edge.
Trapped-ion quantum computers use numerous, individual, charged atoms (ions) to hold quantum information. Our systems use electromagnetic fields to hold (trap) each ion so it can be manipulated and encoded using microwave signals and lasers.
The complexity of these control systems is aligned to our expertise, because we’ve been building them for decades. As a leader in hardware, software and intuitive user interfaces, we have the end-to-end capabilities necessary to design, build, and integrate critical subsystems and components to facilitate trapped-ion technology.
Nearly 100 scientists, engineers and technicians, each with expertise in their field come from many of the world’s top institutions and organizations focused on quantum information systems.
Building a quantum computer requires skills from a wide range of engineering and scientific disciplines. In addition to traditional engineering (electrical, mechanical, optical, systems, and software), we have team members with unique capabilities in Atomic, Molecular, and Optical (AMO) Experimental and Theoretical Physics, vacuum and cryogenic engineering, and quantum theory.
Please email us regarding Honeywell Quantum Solutions.
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