International Conference on Silicon Quantum Electronics and Information Processing ICSQEIP on February 01-02, 2023 in Melbourne, Australia
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- Short Name: ICSQEIP
- Event Type: Conference
- Website URL: https://waset.org/silicon-quantum-electronics-and-information-processing-conference-in-february-2023-in-melbourne
- Program URL: https://waset.org/conferences-in-february-2023-in-melbourne/program
- Contact URL: https://waset.org
- Location: Melbourne, Australia
- Date: February 01-02, 2023
- Final Submission: December 17, 2022
- Notification: February 27, 2022
- Organization: World Academy of Science, Engineering and Technology
- Conference Tags: quantum computing quantum thermodynamics quantum engineering quantum mechanics quantum physics quantum optics quantum theory quantum cryptography quantum electrodynamics quantum programming quantum materials quantum metrology quantum information quantum magnetism quantum quantum science
Silicon quantum electronics and devices
Silicon quantum information processing
Silicon quantum integrated circuits
Technological advancements and challenges
Silicon-related qubit implementations (e.g., Si, SiGe, Ge)
Qubit implementations in silicon and silicon-germanium
Advances in materials and fabrication approaches for Si and SiGe qubits
Cryogenic classical (nano)-electronics and classical electronic interfaces with qubits
Computer assisted design and analysis of donor and quantum dot architectures
Theory and modeling of charge and spin decoherence mechanisms in silicon
Dynamic decoupling and other control techniques to suppress decoherence in Si related qubits
Quantum error correction for Si and SiGe qubits
Approaches to multi-qubit and coherent on-chip communication
Hybrid-qubit approaches combining Si and/or SiGe with other qubit systems
Silicon quantum information processing
Silicon quantum integrated circuits
Technological advancements and challenges
Silicon-related qubit implementations (e.g., Si, SiGe, Ge)
Qubit implementations in silicon and silicon-germanium
Advances in materials and fabrication approaches for Si and SiGe qubits
Cryogenic classical (nano)-electronics and classical electronic interfaces with qubits
Computer assisted design and analysis of donor and quantum dot architectures
Theory and modeling of charge and spin decoherence mechanisms in silicon
Dynamic decoupling and other control techniques to suppress decoherence in Si related qubits
Quantum error correction for Si and SiGe qubits
Approaches to multi-qubit and coherent on-chip communication
Hybrid-qubit approaches combining Si and/or SiGe with other qubit systems
Name: World Academy of Science, Engineering and Technology
Website: https://waset.org/
Address: UAE