The Quantum Information Science Focus Topic will cover innovative quantum technologies that enable us to create, control, and manipulate quantum systems. Topics will cover superconducting qubits, color centers, ion traps, quantum metrology as well as supporting technology of single photon amplifiers, multiplexers, and advances in cryogenic systems, vacuum technology, microwave to optical conversion schemes etc. Challenges in achieving high-performance quantum devices and making precision measurements using quantum systems will be addressed. Specific sessions will highlight the recent advances and challenges in quantum science and information processing, achieving higher coherence qubits and SiC, diamond, and related materials for quantum information sciences.
QS+AP+EM+MN+NS+SS-ThM: Systems and Devices for Quantum Computing
- Laura Cardani, Istituto Nazionale di Fisica Nucleare, Italy, “Effects of Environmental Radioactivity on Superconducting Qubits”
- Harm Knoops, Oxford Instruments Plasma Technology, Netherlands, “Atomic Scale Processing for Quantum Computing”
- Cameron Kopas, Rigetti Computing, ” Improving Qubit Performance Through Engineering of the Substrate-Josephson Junction Interface “
- Meenakshi Singh, Colorado School of Mines, USA, “Design and Optimal Control of Superconducting Qubits to Achieve Quantum Speed Limits”
QS+EM+MN+NS-ThA: The Quantum Metrology Revolution
- Lee Bassett, University of Pennsylvania, “Materials and Devices for Efficient Quantum Memories and Sensors “
- Ella Lachman, Rigetti Computing, “Magnetic Textures in Quantum Materials Revealed by SQUID-on-tip Microscopy”
QS+EM+MN+NS-WeA: Systems and Devices for Quantum Information
- G. D. Fuchs, Cornell University, “Strong Coupling between a Superconducting Microwave Resonator and Low-Damping Magnons Using Vanadium Tetracyanoethylene Thin Films”
- Megan Ivory, Sandia National Laboratories, “Photonics-Integrated Microfabricated Surface Traps for Trapped Ion Applications”
- Chris Palmstrøm, University of California, Santa Barbara, “Superconductor/Semiconductor Heterostructures for Quantum Computing Applications”
- Kathy-Anne Soderberg, Air Force Research Laboratory, “Toward Heterogeneous Quantum Networks: Interfacing Trapped Ion, Superconducting, and Integrated Photonic Qubits”
QS-ThP: Quantum Information Science Poster Session