quantum materials
-
Feng Pan sculpts ultrathin materials for quantum information research
The Stanford University postdoctoral researcher develops high-tech materials to deliver photon packages of quantum information. Read More
-
Solution phase correlation spectroscopy for ultrafast characterization of single photon emitters
A long-standing issue that limits the systematic improvement of single quantum emitters (SQEs) is the significant sample heterogeneity and consequent selection bias in choosing SQEs for characterization. To tackle this challenge, a spectroscopic method that can obtain sample-averaged performances with statistical significance is a prerequisite. Read More
-
What they did this summer: perspectives from five Open Quantum Initiative undergraduate fellows
Five undergraduate fellows supporting research at the Q-NEXT quantum research center share what they’ve learned about quantum information science, their research experiences and their aspirations. Read More
-
Scientists turn a nanowire with exotic currents into a probe for magnetism
From UIUC: A team of researchers led by Vidya Madhavan at the University of Illinois Urbana-Champaign added a twist to their scanning tunneling microscope by replacing the tip with a nanowire made from an exotic material. They use the nanowire to image magnetic features in an approach that has potential advantages compared to other methods. The team plans to modify the nanowire to see if it can reveal even more material features or, for example, detect particles called Majorana fermions, which have long been proposed as the basis for novel quantum computing devices. Read More
-
A one-stop shop for quantum sensing materials
Researchers have created extremely thin membranes of pure diamond in which carbon atoms are replaced nitrogen. These defects connect to neighboring atomic vacancies,creating unusual quantum systems for storing and processing quantum information. Read More
-
A mathematical shortcut for determining quantum information lifetimes
A new, elegant equation allows scientists to easily compute the quantum information lifetime of 12,000 different materials. Read More
-
memq wins George Shultz Innovation Fund Award
From the University of Chicago: memq, a startup founded by the University of Chicago Pritzker School of Molecular Engineering and Argonne National Laboratory researchers, was recently selected to receive the George Shultz Innovation Fund award. memq is developing an integrated quantum photonics platform that will enable quantum communication between computers at distances orders of magnitude greater than what is available today. The team includes Q-NEXT Chief Technology Officer Supratik Guha. Read More
-
Argonne- and UChicago-led research team highlighted in special issue on quantum systems
A set of guidelines that describes the use and development of a promising class of quantum materials is featured on the cover of this month’s Nature Review Materials. Read More
-
Quantum innovation at HRL Laboratories
In 1960, Hughes Research Laboratories demonstrated the world’s first laser. It was a breakthrough born of the laboratory’s cutting-edge capabilities in photonics and materials science. Over the last decade, the Malibu-based research lab — now named HRL Laboratories — has been applying those same capabilities to quantum information science. A Q-NEXT industry partner, HRL is helping the center develop the technologies needed to realize quantum communication. Read More
-
Thaddeus Ladd collaborates on quantum communication for Q-NEXT
As a collaborator and co-design engineer within Q-NEXT, Thaddeus Ladd of HRL Laboratories helps advance new materials for quantum science, develops simulations for future quantum networks, and provides the bird's-eye perspective needed to assess how the center's partners can best support the Q-NEXT mission. Read More
In the News
See all In the News-
The best qubits for quantum computing might just be atoms
From Quanta: Mark Saffman of the University of Wisconsin–Madison and Infleqtion is featured in this comprehensive overview of neutral-atom qubit research. Read More
-
How quantum computing could help us understand the universe
From PBS NewsHour: David Awschalom appears in this piece on the next generation of computing, one that will be far more sophisticated and dependent on understanding the subatomic nature of the universe. Read More
-
PME-led research into protein-based qubits earns $2.75M Moore Foundation grant
Bolstered by a new $2.75 million grant from the Gordon & Betty Moore Foundation, a team led by University of Chicago's Peter Maurer will soon study qubits made from protein. Read More
-
Infleqtion unveils 5-year quantum computing roadmap, advancing plans to commercialize quantum at scale
From Quantum Insider: Infleqtion shares a broad business update, including the first look at its new 5-year quantum computing roadmap. The roadmap's centerpiece is Sqorpius, the next phase of Infleqtion’s quantum computing program. Read More
-
Bringing quantum entanglement to the people
From the National Science Foundation: NSF’S Quantum Leap Challenge Institute Hybrid Quantum Architectures and Networks at the University of Illinois Urbana-Champaign, a Q-NEXT partner, has created a working demonstration that brings entanglement between photons to a public setting for the first time. Read More