In the Dr. Allen and Charlotte Ginsburg Center for Quantum Precision Measurement, Caltech researchers will develop tools and concepts with the potential to influence all areas of science and technology through unprecedented sensing, measurement, and engineering capabilities.
The fulcrum of a major initiative in quantum science and technology, the center will unite a diverse community of theorists and experimentalists devoted to understanding quantum systems and their potential uses (see a ). It will bring together researchers in three fields that progress hand in hand: quantum sensing, quantum information, and gravitational-wave detection-the direct observation of ripples in spacetime.
The center will be housed in a six-story building to be constructed thanks in part to a generous donation by Dr. Allen and Charlotte Ginsburg to name the facility. The new building, fully funded by philanthropy, will bring architectural innovation to a historic campus entrance on California Boulevard.
"Lady Charlotte and I are enchanted with beautiful minds found at institutions of higher learning, especially Caltech," Dr. Ginsburg says. "Our quest early on is to enlist these mind-gifted students into the lifetime of excitement awaiting them in contributing to making our planet, oceans, and universe into the ennoblement of humanity."
"Allen and Charlotte are inspired by the potential the future holds and how they can realize the promise of coming technologies," says Caltech president Thomas F. Rosenbaum, the Sonja and William Davidow Presidential Chair and professor of physics. "Through their generous philanthropy, the Ginsburgs are investing in the young people and the cross-disciplinary collaborations that will help jump start the next era of quantum discoveries."
The building will feature four floors of airy interaction spaces and offices, amounting to more than 47,000 gross square feet, built atop two floors of state-of-the-art underground laboratories that were recently made possible by a major grant from the Sherman Fairchild Foundation. The building concept includes a glass design and attractive external elements evoking quantum discovery.
"I think the researchers will love it," says Charlotte Ginsburg, who has honed her eye for design over years of involvement with performing arts organizations. "It will be light. There will be open areas for labs and a lot of spaces where the students and professors can get together."
To maximize collaboration, the center also will feature passageways to three adjacent buildings: the Ronald and Maxine Linde Hall of Mathematics and Physics, the W. K. Kellogg Laboratory, and the Downs and Lauritsen laboratories of physics, home to the Walter Burke Institute for Theoretical Physics.
"It will be a trifecta where you have buildings that are very deeply connected to this new one," Allen Ginsburg says. "You have the various disciplines together in a small space, sharing common auditoriums, communicating with each other. You can glean tremendous things from other fields that you wouldn't otherwise get by remaining in one discipline. I think this is the thing of the future."
To illustrate, Allen, a retired ophthalmologist, describes the surprising gains he and colleagues made by taking time to exchange visits with other specialists: orthopedic surgeons and neurosurgeons.
"We saw tools and techniques that they were using that were second nature to them but that we didn't realize existed," he says. "And we were able to amalgamate them into our repertoire. Wherever you have interdisciplinary communication, it is very, very exciting. Because great things come out of it when people share."
The Ginsburgs, who live near Long Beach, began exploring a partnership with Caltech in spring 2020. This is their first gift to the Institute. The causes they support range widely, encompassing the performing arts, science, medicine, and conservation. They have supported cutting-edge research efforts at several local universities. Whether giving to the ballet, the Aquarium of the Pacific, the Long Beach Symphony, or a research institution, the Ginsburgs applaud people striving for excellence.
"We are so grateful to Allen and Charlotte Ginsburg. Their lead gift allows us to realize our goal to unite the community pursuing new quantum strategies," says Fiona Harrison, Caltech's Harold A. Rosen Professor of Physics and the Kent and Joyce Kresa Leadership Chair of the Division of Physics, Mathematics and Astronomy. "The new building will be the home of extraordinary ideas that provide pathbreaking new directions for scientific discovery."
Initially intrigued by Caltech's integration with JPL, the Ginsburgs recently began visiting campus to tour laboratories and meet with faculty, students and campus leadership.
"We love the campus, the architecture, the trees, the surrounding neighborhoods," Charlotte says. "It's beautiful. We love the history, too."
Allen Ginsburg often thinks about how the future will unfold, and he foresees the promise of quantum devices. One day, he speculates, quantum instruments will image the tiniest components of cells in detail, quantum computers will expand our knowledge, and novel instruments for telescopes and gravitational-wave detectors will reveal the secrets of Earth-like exoplanets, black holes, and other galaxies.
"I think there are a lot of things that Caltech and JPL are doing that are in the interest of the planet, and it's very exciting to be involved," Allen says. "We're enchanted with Caltech. I was able to talk to people who do research at Caltech, and we made a fantastic connection."
Quantum physics and its technological impact
Atoms and subatomic particles obey the rules of quantum physics , individually and collectively behaving far differently from objects at the scale of everyday perception. Researchers' fast-growing understanding of these behaviors and how to work with them is introducing a new technological era, in much the same way that mid-century physics and engineering led to semiconductor devices such as transistors that fueled the information age. Caltech is a leader in quantum science and technology, and the future contributions of the Ginsburg Center, from insights and instruments for quantum computing and biomedical imaging to new detectors for observatories , are expected to broadly accelerate discovery and innovation.
astronomy & physics computer & information science Institute affairs instrumentation interdisciplinary research LIGO quantum science