On March 11, PPPL opened its new Quantum Diamond Lab, a space devoted to studying and refining the processes involved in using plasma, the electrically charged fourth state of matter, to create high-quality diamond material for quantum information science applications.
Tag: quantum sensing
Martinez-Rincon Elected Vice Chair of QED-C Committee
Julian Martinez-Rincon, a quantum scientist at the U.S. Department of Energy’s (DOE) Brookhaven National Laboratory, has been elected vice chair of the Standards & Performance Metrics Technical Advisory Committee (TAC) of the Quantum Economic Development Consortium (QED-C).
What is quantum squeezing?
Scientists exploit a property of quantum physics to make ultraprecise sensors and measurements.
Glitches in the matrix
Physicists at Washington University are finding new ways to harness the quantum power of defects in otherwise flawless crystals.
New foundry to accelerate quantum information research at Argonne National Laboratory
The Argonne Quantum Foundry, a new scientific facility at Argonne, is meeting a critical need for quantum science by providing a robust supply chain of materials for quantum devices and systems.
Feng Pan sculpts ultrathin materials for quantum information research
The Stanford University postdoctoral researcher, a collaborator with the Q-NEXT quantum research center led by Argonne, develops high-tech materials to deliver photon packages of quantum information.
Experts discuss quantum science at screening of ‘Ant-Man and the Wasp: Quantumania’
Following the screening of the movie, leading experts in quantum science discussed the quantum realm in Marvel’s universe and in ours. Guests were also treated to a hands-on demo of the Quantum Casino, a fun, game-based introduction to quantum physics.
New quantum sensing technique reveals magnetic connections
A research team supported by the Q-NEXT quantum research center demonstrates a new way to use quantum sensors to tease out relationships between microscopic magnetic fields.
Q-NEXT quantum center releases roadmap for the development of quantum information technologies
The Q-NEXT quantum research center has released a quantum technology roadmap that outlines the research and scientific discoveries needed for distributing quantum information on a 10- to 15-year timescale.
The entanglement advantage
Researchers have demonstrated a way to entangle atoms to create a network of atomic clocks and accelerometers. The method has resulted in greater precision in measuring time and acceleration.
Through the quantum looking glass
An ultrathin invention could make future computing, sensing and encryption technologies remarkably smaller and more powerful by helping scientists control a strange but useful phenomenon of quantum mechanics, according to new research recently published in the journal Science.
How the five National Quantum Information Science Research Centers harness the quantum revolution
The DOE National Quantum Information Science Research Centers are a collective force for quantum research in the United States, driving scientific innovation, building a quantum ecosystem and fostering the future quantum workforce.
This device could usher in GPS-free navigation
Sandia National Laboratories has created the first device that is small, energy-efficient and reliable enough to potentially move quantum sensors — sensors that use quantum mechanics to outperform conventional technologies — from the lab into commercial use.
Making 3-D Nanosuperconductors with DNA
Scientists developed a platform for making 3-D superconducting nano-architectures with a prescribed organization.