QuICS fellow Nicole Yunger Halpern is part of a team that’s developed a new technique that can reset qubits in quantum computers highly effectively, a critical task for successful quantum computing.
QuICS fellow Nicole Yunger Halpern is part of a team that’s developed a new technique that can reset qubits in quantum computers highly effectively, a critical task for successful quantum computing.
The QuICS fellow is profiled in a feature article published by the National Institute of Standards and Technology.
Yuxiang Peng developed programming languages and high-assurance compilers to control quantum systems, allowing them to perform computational tasks with certifications.
Nicole Yunger Halpern has been named one of Science News’s 10 “Scientists to Watch” for her pioneering work in quantum thermodynamics. She blends historical concepts with modern technology to advance the understanding of small-scale systems like qubits.
QuICS fellow Nicole Yunger Halpern is part of a team that’s developed a new technique that can reset qubits in quantum computers highly effectively, a critical task for successful quantum computing.
The QuICS fellow is profiled in a feature article published by the National Institute of Standards and Technology.
Yuxiang Peng developed programming languages and high-assurance compilers to control quantum systems, allowing them to perform computational tasks with certifications.
Nicole Yunger Halpern has been named one of Science News’s 10 “Scientists to Watch” for her pioneering work in quantum thermodynamics. She blends historical concepts with modern technology to advance the understanding of small-scale systems like qubits.