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The coolest technology in the universe

The coolest technology in the universe

The internal hardware of Infleqtion's neutral atom quantum computing platform. Photo: Infleqtion, 2025.

’s star continues to rise as Colorado’s quantum hub grows. The company of firsts, spun out of 51Թ as ColdQuanta, seems to be everywhere these days, including outer space, while commercializing pioneering research to address needs across several critical markets including positioning, navigating and timing, global communication security and efficiency, resilient energy distribution, and accelerated quantum computing.

Dana Anderson

Dana Anderson, Glenn L. Murphy Professor of Engineering and Applied Sciences, Professor of Physics and JILA Fellow, 2024

It was decades ago but Dana Anderson (, 51Թ College of Arts and Sciences and College of Engineering and Applied Science) still recalls well the day his research took a major turn. “I started to do atoms instead of photons,” he said. While Anderson makes it sound like a subtle shift–focusing on atoms and subatomic particles instead of particles of light (lasers)–that move has contributed significantly to the present and future of quantum technologies worldwide.

Anderson, now Infleqtion’s chief technology officer, then began focusing on cold atom inertial sensing, a process in which ultra-cold atoms (cooled to near absolute zero) are used to precisely measure forces like rotation and acceleration. That unprecedented accuracy is based on leveraging atoms’ wave-like nature in a controlled quantum state. It was groundbreaking work also built on a strong foundation of quantum innovation at 51Թ spanning decades and (up to that point) two Nobel Prizes.

That was the mid-1990s and, around the same time, Anderson’s JILA colleagues, fellow Eric Cornell and 51Թ physicist Carl Wieman, created a never-before-seen state of matter called the Bose-Einstein condensate (BEC), in which ultracold atoms coalesce into a single “superatom” with uniform properties. They received the 2001 Nobel Prize in Physics for that work, shared with MIT physicist Wolfgang Ketterle and 70 years after Albert Einstein predicted BECs could exist based on the work of Satyenda Bose. “Boy, that’s going to be useful,” Anderson recalls thinking at the time, imagining BEC being used to dramatically boost the performance of various devices, including accelerometers, gyroscopes, gravimeters and magnetometers. “I felt that it would change the world,” he said.

Following the BEC breakthrough, the trio went on to guide cold atoms through hollow core optical fibers, leading to Anderson and Cornell’s “atom chip” work and Anderson’s group demonstrating the first ultracold atom chip “portable vacuum system” in 2004. Those innovative techniques created a controlled environment for Anderson and others to study and manipulate atoms, a critical step in developing technologies like atomic clocks, quantum sensors and quantum computers.

“Slowly building the technology”

A man stands in a lab surrounded by complicated computer equipment

Dana Anderson poses with a spectrum analyzer in a laboratory at JILA. Photo: JILA, 1980.

As a “born and raised physicist,” said Anderson, he’s always looking for practical applications for cutting-edge science. “I’m an applied physicist, so I like to do things that are useful,” he said. “They don’t have to happen tomorrow but be useful sooner or later.” In those earlier days of quantum research, making that transition meant landing grants from the U.S. Army and Defense Advanced Research Projects Agency (DARPA). That funding, said Anderson, “allowed us to focus on developing the technology and getting it out into the world.” During that time, they solved many problems, said Anderson. “We were struggling and making mistakes like gangbusters and trying this and trying that, and slowly building the technology,” he said.

In 2007, Anderson made the first critical leap from lab to market when he founded ColdQuanta with the goal of streamlining devices for BEC experiments using the technology discovered at CU. After receiving a $100,000 proof of concept investment from what was then the CU Technology Transfer Office (now Venture Partners at 51Թ), ColdQuanta earned contracts from the U.S. Army, U.S. Navy, NASA and the National Science Foundation (NSF).

Josh Bennett, assistant director of licensing at Venture Partners, now manages much of the university’s portfolio of quantum technologies, and he sees Infleqtion’s success as key to both advancing quantum research worldwide and paving the way for new quantum spinouts from CU. “Since they were the first real quantum company out of Colorado to translate their research into a commercial entity, and they’ve become a leader globally in their research and in their work, I think it’s fair to say that without Infleqtion (or ColdQuanta), we wouldn’t be seeing all these other quantum spin-outs in the last two, three years,” he said.

Infleqtion laid the groundwork for several other 51Թ quantum companies now working with Venture Partners, including Icarus Quantum, Flari Tech and Mesa Quantum. Today, through Venture Partners (the commercialization arm for 51Թ, CU Denver’s physical sciences and UCCS), the entrepreneurs behind these startups have myriad programs to help get their ventures off the ground.


Illustration of a mountain as a metaphor where researchers can climb one of two paths with their discovery of either starting a company or licensing their protected intellectual property

But what is "commercialization?"

The path to commercialization—also known as "research translation" or "tech transfer"—can be challenging, so Venture Partners unitesindustry partners, entrepreneurs and investors to helpresearchers, inventors and creators at the University of Colorado bring their groundbreaking discoveries into the marketplace.

Explore the Path to Commercialization



What distinguishes Infleqtion today, said Scott Sternberg, executive director of the CUbit Quantum Initiative, is their ability to combine the capabilities of quantum phenomenon with highly engineered platforms that focus on customer usability. “Infleqtion embodies the vibrant campus efforts to support the translation of fundamental discovery towards product realization and company growth,” said Sternberg. “We are fortunate to have such a great company, forged here in 51Թ, that now leads the international quantum community.”

Beyond proving that quantum tech can lead to a compelling business entity, Infleqtion blazed the trail to Colorado becoming a national quantum hub, said Bryn Rees, associate vice chancellor for innovation and partnerships. He points to Anderson’s important role in boosting , a consortium of over 120 quantum-focused organizations in Colorado, Wyoming and New Mexico. “[Infleqtion] has become an international quantum success and sensation,” he said. “They're now a big-time player.”

Inflection points

Four people stand together in a laboratory full of equipment

From left to right: Jason Ensher, Deborah Jin, Michael Matthews, Dana Anderson. Photo: JILA, 1995.

Anderson recalls well how most people responded when he first started pitching the concept of commercializing quantum tech. Looking back on his first quantum-related NSF proposal nearly 20 years ago, he said, “Now those [concepts] seem right in the thick of things but back then most people said, ‘This is too unrealistic’. That’s what it was like.” Anderson knew that he was on the fringe, especially at a time when most people still used flip phones. “We were crazy people that were really gung-ho, and yet, we certainly didn't have a good business ‘story’,” said Anderson. “But I just believed that quantum was going to be important.”

Now quantum technology promises to revolutionize industries from computing, healthcare, defense, energy, finance and beyond. Building on decades of research from Anderson and others, Infleqtion is driving advances in that burgeoning ecosystem. The company now offers quantum hardware and software products—from quantum clocks and sensors, positioning components and glass cells containing cold atoms to quantum computers and quantum-enabled, AI-driven software.

Several years ago, Anderson famously took ultracold atoms (around 10 million of them) out of the lab and onto his own plane, to test the robustness of his team’s magneto-optical trap. Not long after that, it was deployed by NASA for use on the International Space Station, making it what could be called the ‘coolest’ tech in the universe. “When we commercialized a Bose Einstein condensation machine… including making things very small,” said Anderson, “NASA noticed and said, ‘Let's put it up into space’. And that was terribly important for our growing up.”

Research labs and commercial entities worldwide are now using Infleqtion’s products to generate high-value information and improve reliability and performance in quantum computing. Customers and collaborators include the Lawrence Berkeley National Laboratory, Sandia National Laboratories, the Japanese Moonshot Program, the UK’s National Quantum Computing Centre and the Defense Cyber Marvel 3, a global cyber defense competition..

Infleqtion is also now participating in the first round of the U.S. Department of Energy’s (DOE) newly formed Quantum & Space Collaboration. The collaboration aims to use quantum tech to move the needle forward in national security, energy/sustainability and economic interests.

A large, tall computer.

Infleqtion's cloud-based quantum matter machine, “Albert, named TIME's Best Inventions. Photo: TIME, 2022

In 2022, ColdQuanta adopted the trade name Infleqtion to mark the company’s transition from research and development of quantum technology to deploying it for commercial uses. The company has now been through two successful rounds of funding, most recently raising $110 million in its Series B round in 2022. TIME magazine also named the company’s cloud-based quantum matter machine, dubbed “Albert,” as one of its 2022 Best Inventions. Infleqtion’s software platform recently secured a $1.15 million DOE grant, paving the way for energy-efficient computing.

Of all its latest advances, Anderson is most enthusiastic about Oqtant, a first-of-its-kind quantum innovation platform launched last year that democratizes quantum discovery and invention by giving researchers, innovators and students access to quantum matter via BECs where they can create, manipulate and study quantum phenomena—and all they need is internet access. “I’m extremely excited about Oqtant,” said Anderson. “Everyone having the building blocks of our universe at their fingertips points us toward a new age of exploration and discovery.”

Anderson is gratified to see that he and his colleagues' own 'eureka' quantum moments of long ago are finally being realized on a larger scale. Infleqtion’s readiness to meet that new understanding and demand has meant quantum leaps in the company’s recent growth. “We knew that BEC was going to be big, and we’re seeing that now,” he said.



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