Exploring 3D Transmon Qubits in Quantum Computing
This document delves into the initialization, read-out, and measurement techniques of 3D transmon qubits as integral components of quantum computing. It covers the underlying principles of superconducting qubits, SRF cavity utilization, and the roadmap for improving quantum memory and coherence time
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Investigation of Self-Organized Criticality Dynamics in Low Energy Threshold Ionization Detectors
Exploring the effects of energy accumulation in materials in detectors for coherent neutrino scatter, dark matter searches, and superconducting sensors and qubits. Focus on condensed matter effects, responsivity, background, and a hypothesized universal condensed matter mechanism. Touches on energy
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Quantum Error-Correcting Codes and Subsystem Codes
Quantum error-correcting codes (QECC) play a crucial role in protecting quantum information from errors. Stabilizer codes with fault-tolerant error-detecting circuits can lead to the construction of resilient subsystem codes. These codes involve encoding logical qubits into physical qubits and error
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Understanding Quantum Computing: Quantum Gates, Bits, and Applications
Explore the world of quantum computing with this detailed guide covering quantum bits, gates, their applications, and the advancements made in the field. From classical bits to qubits, Bell states, and quantum gates, discover the fundamental principles that drive quantum computing forward.
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Optimizing Continuous Quantum Control with Variable Parameters
The research delves into solving quantum optimal control problems with versatile system parameters through robust and analytical approaches. It explores optimizing figures of merit in quantum systems with varying Hamiltonian and pulse parameters, showcasing solutions for single-qubit and two-qubit s
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