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- Superconducting Qubits: Current State of Play Arxiv:1905.13641V3
- Quantum Computation and Complexity
- Entanglement Transformation Between Two-Qubit Mixed States by LOCC
- Topological Quantum Computing Fo Beginners”
- High-Fidelity Readout and Control of a Nuclear Spin Qubit in Silicon
- Quantum Electrodynamics with Superconducting Circuits: Effects of Dissipation and Fluctuations
- A 4 Superconducting Qubits
- Constructions and Applications of W-States
- Quantum Complexity Theory
- Enhancing User Privacy in SARG04-Based Private Database Query Protocols
- Optical Quantum Memory and Its Applications in Quantum Communication Systems
- Quantum Advantages and Computational Complexity
- Quantum Computing Lecture 1 Bits and Qubits What Is Quantum
- Software for Arbitrary Single Qubit & Qutrit Gate Calibration
- The Oracle Separation of BQP and PH: a Recent Advancement in Quantum Complexity Theory
- Quantum Memory Hierarchies: Efficient Designs to Match Available
- 1 Introduction to Quantum Memory Management 2 Copying a Qubit State
- Security of Two Quantum Cryptography Protocols Using the Same Four Qubit States
- Quantum Mechanics and in Most Physicists’ View, Dashed Einstein’S Hope for a “Completion” of Quantum Mechanics
- 2.0 Basic Introduction to Quantum Information Processing 2.1
- Classical and Quantum Logic Gates: an Introduction to Quantum Computing
- Quantum Information and Computation Chapter 5
- (2019) Transmon Qubit in a Magnetic Field: Evolution of Coherence And
- Superstrong Coupling in Circuit Quantum Electrodynamics
- 1 an Overview of Quantum Teleportation Travis S. Humble
- Quantum Computing: an Overview Across the System Stack
- Qubit-Qutrit Separability-Probability Ratios
- LETTER Doi:10.1038/Nature11449
- Circuit Quantum Electrodynamics Lev Samuel Bishop 2010
- Lecture 3: Bounded Error Quantum Polynomial Time (BQP) Contents 1
- Probabilistic Resumable Quantum Teleportation of a Two-Qubit Entangled State
- Introduction to Topological Quantum Computation with Anyons
- Preparation of Entangled States and Quantum Teleportation with Atomic Qubits
- Resonant Quantum Gates in Circuit Quantum Electrodynamics
- Circuit Quantum Electrodynamics
- Standard Quantum Teleportation of an Arbitrary N-Qubit State, Non
- Realization of Efficient Quantum Gates with a Superconducting Qubit-Qutrit Circuit
- A Short Introduction to Topological Quantum Computation
- Asymptotic Improvements to Quantum Circuits Via Qutrits
- 1 Quantum Teleportation Tutorial by Travis S. Humble Scientific
- Lecture 16 1 BQP ∈
- Quantum Teleportation of Physical Qubits Into Logical Code Spaces
- Topological Quantum Computing 1 Introduction
- Arxiv:2003.03307V2 [Quant-Ph] 10 Feb 2021
- Chapter 14 Spin Qubits for Quantum Information Processing
- Lecture 11 (Notes) 1 Introduction 2 Quantum Computing And
- Demonstration of a Fundamental Quantum Logic Gate
- BB84와 SARG04 양자 암호에서의 Depolarizing 채널 효과 Effects of Depolarizing Quantum Channels on BB84 and SARG04 Quantum Cryptography
- On the Quantum Capacity of the Qubit Depolarizing Channel Based on Arxiv:1701.03081 and a Paper Appearing May 14
- Simultaneous Bistability of a Qubit and Resonator in Circuit Quantum Electrodynamics
- Maximal LELM Distinguishability of Qubit and Qutrit Bell States Using Projective and Non- Projective Measurements Nathaniel Leslie Harvey Mudd College
- Quantum Memory: Design and Applications
- Quantum Computing
- Quantum Memory and Processing in Flexible Wire Circuit
- A New Bound on Qubit Entanglement Distillation
- Universal and Operational Benchmarking of Quantum Memories ✉ ✉ ✉ Xiao Yuan 1,2,3 , Yunchao Liu 4,5 , Qi Zhao 5, Bartosz Regula 6, Jayne Thompson 7 and Mile Gu6,7,8
- Mathematics of Topological Quantum Computing
- Topological Quantum Computation
- A Tunable 20 Ghz Transmon Qubit in a 3D Cavity
- Experimental Quantum Teleportation of a Two-Qubit Composite System
- Synthesis of Quantum Logic Circuits 1 Introduction
- Trade-Offs in Distinguishing Two-Qubit State Preparations Using One-Way Locc" (2017)
- Quantum Computing and Quantum Topology
- A Review on Quantum Computing: Qubits, Cryogenic Electronics And
- Transmon Qubit with Relaxation Time Exceeding 0.5 Milliseconds Chenlu
- FAKULT¨AT F¨UR PHYSIK Many-Body Physics with Circuit
- Quantum Memories with Cold Atomic Ensembles : a Free Space Implementation for Multimode Storage, Or a Nanofiber-Based One for High Collection Efficiency