Q

NOTE: This repository has not been properly updated in a good while, and some of my research and learning progress has been moved to private repositories, so this repository acts an an archive for the time being.

List of sections

• Online Courses
• Course homepages
• Tutorials and Documentations
• Books
• Papers
• Talks and Videos

Online Courses

Note: I've decided that I need to review that math courses that I took over 2 years ago. So that's where we are atm.

• [x] Prof. Peter Wittek - Quantum Machine Learning.
• [x] Tu Delft - The Quantum Internet and Quantum Computers.
• [x] TU Delft - Architecture, Algorithms, and Protocols of a Quantum Computer and Quantum Internet.
• [x] Prof. Leonard Susskind - "ER = EPR" or "What's Behind the Horizons of Black Holes?"
• [x] Prof. Barton Zwiebach - Quantum Physics I.
• [ ] Prof. Barton Zwiebach - Quantum Physics II.
  • Currently on Lecture 20/26. (Skipped lectures 16, 17 and the first half of 18 because of my lack of knowledge in EM.)
• [ ] Prof. Barton Zwiebach - Quantum Physics III.
  • Currently on Lecture 2/24.
• [ ] Grant Sanderson & Sal Khan - Multivariable Calculus.
  • Currently on Lecture 122/175.
• [ ] TU Delft - Quantum Cryptography.
  • Currently on Section 3.0/10.
• [ ] Prof. Joe Blitzstein - Statistics.
  • Currently on Lecture 11/33. (2nd time watching)
• [ ] TU Delft - The Hardware of a Quantum Computer.
• [ ] Prof. Nicole Yunger Halpern - A mini-course on Quantum-Information Thermodynamics.
• [ ] Prof. Leonard Susskind - The Theoretical Minimum.
• [ ] Prof. John Watrous - Advanced Topics in Quantum Information Theory.
• [ ] Prof. Vahid KarimiPour - Group Theory.
• [ ] Prof. Robert Raussendorf - Measurement Based Quantum Computation.
• [ ] Prof. Chris Godsil - Combinatorics and Quantum Walks.

Course Homepages with no video

• Berekley's Qubits, Quantum Mechanics and Computers.
• Carengie Mellon's Quantum Computation and Quantum Information Theory.
• Prof. Scott Aaronson's Quantum Complexity Theory.

Tutorials and Documentations

• [x] Microsoft's Quantum Katas
• [ ] Microsoft's Quantum Documentation.
• [ ] Microsoft's Quantum repository.
• [ ] Pennylane's QML.
• [ ] Google's Quantum AI.
• [ ] The Quantum Algorithms' Zoo.
• [ ] The Complexity Zoo.
• [ ] Quantum algorithms for data analysis.
• [ ] IBM's Qiskit Textbook.
  • Currently at Section 5.

Books

The books are mostly linked to their Goodreads entry, but sometimes to the original if they're publicly available.

• [x] Noson S. Yanofsky - Quantum Computing for Computer Scientists.
• [x] Michael A. Nielsen - Quantum Computation and Quantum Information.
• [x] John Watrous - Quantum Computing Lecture Notes.
• [x] Erwin Schrödinger - What Is Life? with Mind and Matter.
• [ ] David Griffiths - Introduction to Quantum Mechanics.
  • Currently on Page 317/644.
• [ ] Mark M. Wilde - Quantum Information Theory.
• [ ] John Watrous - The Theory of Quantum Information.
• [ ] John Watrous - Advanced topics in Quantum Information Theory Lecture Notes.
• [ ] Scott Aaronson - The Complexity of Quantum States and Transformations: From Quantum Money to Black Holes.
• [ ] Andrew Childs - Quantum Algorithms Lecture Notes.
• [ ] Wojciech H. Zurek - Quantum Theory and Measurement.
• [ ] Richard P. Feynman - Lecture Notes.
• [ ] Richard P. Feynman - Quantum mechanics and path integration.
• [ ] John von Neumann - Mathematical Foundations of Quantum Mechanics.
• [ ] Michael E. Peskin - An Introduction To Quantum Field Theory.
• [ ] Lokenath Debnath - Introduction to Hilbert Spaces with Applications.
• [ ] Carlo Rovelli - Quantum Gravity.
• [ ] Henry P. Stapp - Mind, Matter and Quantum Mechanics.
• [ ] Rodney Van Meter - Quantum Networking.
• [ ] Asher Peres - Quantum Theory: Concepts and Methods.
• [ ] Ingemar Bengtsson - Geometry of Quantum States.
• [ ] Attila Szabo - Modern Quantum Chemistry.
• [ ] Trygve Helgaker - Molecular Electronic-structure Theory.
• [ ] Francesco Petruccione - Supervised Learning with Quantum Computers.
• [ ] H. Dieter Zeh - The Physical Basis of the Direction of Time.
• [ ] Akira Furusawa - Quantum Teleportation and Entanglement: A Hybrid Approach to Optical Quantum Information Processing.
• [ ] Barton Zwiebach - A First Course in String Theory.
• [ ] Bob Coecke - Picturing Quantum Processes: A First Course in Quantum Theory and Diagrammatic Reasoning
• [ ] Steve Nadis - The Shape of Inner Space: String Theory and the Geometry of the Universe's Hidden Dimensions.
• [ ] Joseph Conlin - Why String Theory?
• [ ] Peter Woit - Not Even Wrong: The Failure of String Theory and the Search for Unity in Physical Law.
• [ ] Lee Smolin - The Trouble with Physics: The Rise of String Theory, the Fall of a Science and What Comes Next.
• [ ] Sabine Hossenfelder - Lost in Math: How Beauty Leads Physics Astray.
• [ ] Dénes Petz - Quantum Entropy and Its Use.
• [ ] Dénes Petz - Quantum Information Theory and Quantum Statistics.

Papers

The papers are mostly provided with an https://arxiv.org/abs/quant-ph url for easy access. Obviously, most papers aren't confined to one of the following categories, I've just tried to heuristically categorize the papers for easier access. (And yes, I have my own doubts about the separation of Quantum Information and Quantum Complexity)

• [ ] James Hartle's papers on Quantum Mechanics and Quantum Cosmology.

Quantum Networks and Quantum Cryptography

• [x] Towards a global quantum network.
• [x] The Engineering of a Scalable Multi-Site Communications System Utilizing Quantum Key Distribution (QKD).
• [x] Simple security analysis of phase-matching measurement-device-independent quantum key distribution.
• [ ] The Security of Practical Quantum Key Distribution.
• [ ] Simple Proof of Security of the BB84 Quantum Key Distribution Protocol.
• [ ] Simple security proof of quantum key distribution via uncertainty principle.
• [ ] Dual universality of hash functions and its applications to quantum cryptography.
• [ ] Measurement-device-independent quantum key distribution.
• [ ] Security of quantum key distribution.
• [ ] Overcoming the rate-distance barrier of quantum key distribution without using quantum repeaters.
• [ ] Reference frame independent quantum key distribution.
• [ ] Distillation of secret key and entanglement from quantum states.
• [ ] Quantum Teleportation is a Universal Computational Primitive.
• [ ] Fully device independent quantum key distribution.
• [ ] Quantum And Relativistic Protocols For Secure Multi-Party Computation.
• [ ] Secrecy extraction from no-signalling correlations.
• [ ] Optimal architectures for long distance quantum communication.
• [ ] Entanglement Distillation between Solid-State Quantum Network Nodes.
• [ ] Deterministic delivery of remote entanglement on a quantum network.
• [ ] Reliable numerical key rates for quantum key distribution.
• [ ] Optimal Eavesdropping in Quantum Cryptography with Six States.
• [ ] Proposal for Implementing Device-Independent Quantum Key Distribution based on a Heralded Qubit Amplification.
• [ ] Efficient heralding of photonic qubits with applications to device-independent quantum key distribution.
• [ ] Quantum Communication With Zero-Capacity Channels.
• [ ] The physical limits of communication.

Quantum Algorithms

• [x] Rapid solutions of problems by quantum computation.
• [x] Quantum state discrimination.
• [x] Measurement based Controlled Not gate for topological qubits in a Majorana fermion quantum-dot hybrid system.
• [x] Addition on a Quantum Computer.
• [x] A new quantum ripple-carry addition circuit.
• [x] Polynomial-time algorithms for prime factorization and discrete logarithms on a quantum computer.
• [x] Demonstration of a 6 State-4 State Reference Frame Independent Channel for Quantum Key Distribution.
• [x] Key establishment à la Merkle in a quantum world.
• [x] Coherent state exchange in multi-prover quantum interactive proof systems.
• [x] Quantum random walks - an introductory overview.
• [x] Quantum Singular Value Transformation and Beyond: Exponential Improvements for Quantum Matrix Arithmetics (Shorter Version).
• [ ] Optimal Hamiltonian Simulation by Quantum Signal Processing.
• [ ] Noisy intermediate-scale quantum (NISQ) algorithms.
• [ ] Adiabatic Quantum State Generation and Statistical Zero Knowledge.
• [ ] Quantum Algorithms for Quantum Field Theories.
• [ ] Quantum algorithms revisited.
• [ ] Quantum Algorithms and the Fourier Transform.
• [ ] Quantum walks in higher dimensions.
• [ ] Quantum Walks On Graphs.
• [ ] Quantum random walks.
• [ ] Universal computation by quantum walk.
• [ ] Quantum walks: a comprehensive review.
• [ ] Expressing the operations of quantum computing in multiparticle geometric algebra.
• [ ] Fast versions of Shor's quantum factoring algorithm.
• [ ] Approximate Quantum Fourier Transform and Decoherence.
• [ ] Implementation of the Quantum Fourier Transform.

Quantum Machine Learning

• [x] Bayesian machine learning for quantum molecular dynamics.
• [x] Online learning of quantum states.
• [x] Quantum statistical query learning.
• [x] A Quantum Approximate Optimization Algorithm.
• [ ] Training variational quantum algorithms is NP-hard -- even for logarithmically many qubits and free fermionic systems.
• [ ] Interpretable and unsupervised phase classification.
• [ ] A quantum algorithm to train neural networks using low-depth circuits.
• [ ] The theory of variational hybrid quantum-classical algorithms
• [ ] From the Quantum Approximate Optimization Algorithm to a Quantum Alternating Operator Ansatz.
• [ ] High-fidelity adiabatic quantum computation using the intrinsic Hamiltonian of a spin system: Application to the experimental factorization of 291311.
• [ ] Quantum algorithms for supervised and unsupervised machine learning.
• [ ] Quantum algorithm for solving linear systems of equations.
• [ ] Quantum linear systems algorithms: a primer.
• [ ] Discovering physical concepts with neural networks.
• [ ] Variational Quantum Algorithms.
• [ ] Generalized Coherent States, Reproducing Kernels, and Quantum Support Vector Machines.
• [ ] Quantum support vector machine for big data classification.
• [ ] Supervised Learning with Quantum-Inspired Tensor Networks.
• [ ] Supervised learning with quantum enhanced feature spaces.
• [ ] Quantum machine learning in feature Hilbert spaces.
• [ ] Quantum Variational Autoencoder.
• [ ] Variational quantum generators: Generative adversarial quantum machine learning for continuous distributions.
• [ ] Quantum singular value transformation and beyond: exponential improvements for quantum matrix arithmetics.
• [ ] Generation of High Resolution Handwritten Digits with an Ion-Trap Quantum Computer.
• [ ] Implementing a distance-based classifier with a quantum interference circuit.
• [ ] Unsupervised Machine Learning on a Hybrid Quantum Computer.
• [ ] Quantum support vector machine for big data classification.
• [ ] Quantum Machine Learning.
• [ ] TensorFlow Quantum: A Software Framework for Quantum Machine Learning.
• [ ] Machine learning for quantum dynamics: deeplearning of excitation energy transfer properties.
• [ ] Circuit-centric quantum classifiers.
• [ ] Optimal quantum learning of a unitary transformation.
• [ ] Bayesian machine learning for quantum molecular dynamics.
• [ ] Miniaturizing neural networks for charge state autotuning in quantum dots.
• [ ] Limitations of optimization algorithms on noisy quantum devices.
• [ ] Dimensional Expressivity Analysis of Parametric Quantum Circuits.
• [ ] Information-theoretic bounds on quantum advantage in machine learning.
• [ ] Connecting ansatz expressibility to gradient magnitudes and barren plateaus.
• [ ] Quantum f-divergences and error correction.

Quantum Simulation

• [x] Simulating Hamiltonian dynamics with a truncated Taylor series.
• [x] Quantum simulation of the Hubbard model with dopant atoms in silicon.
• [ ] Quantum simulation of electronic structure with transcorrelated Hamiltonian: increasing accuracy without extra quantum resources.
• [ ] Simulating quantum field theory with a quantum computer.
• [ ] Quantum Simulation of Quantum Field Theory in the Light-Front Formulation.
• [ ] Quantum Simulators: Architectures and Opportunities.
• [ ] Universal Quantum Simulators.
• [ ] Simulating Physical Phenomena by Quantum Networks.
• [ ] Hamiltonian Simulation Using Linear Combinations of Unitary Operations.
• [ ] Analog quantum simulation of chemical dynamics.
• [ ] Quantum simulation of time-dependent Hamiltonians and the convenient illusion of Hilbert space.

Quantum Complexity

• [ ] Quantum complexity theory.
• [ ] Quantum Computational Complexity.
• [ ] Computational capacity of the universe.
• [ ] NP-complete Problems and Physical Reality.
• [ ] Quantum Mechanics Near Closed Timelike Lines.
• [ ] Closed Timelike Curves Make Quantum and Classical Computing Equivalent.
• [ ] Quantum theory, the Church-Turing Principle and the universal quantum computer.
• [ ] Ising formulations of many NP problems.
• [ ] Quantum Arthur-Merlin Games.

Quantum Hardware and Quantum Architecture

• [x] Quantum circuit optimizations for NISQ architectures.
• [x] Improved Synthesis of Clifford+T Quantum Functionality.
• [x] Challenges in Scaling-up the Control Interface of a Quantum Computer.
• [x] A Cryogenic Interface for Controlling Many Qubits.
• [x] A case for multi-programming quantum computers.
• [x] Certification of spin-based quantum simulators.
• [ ] Generation and verification of 27-qubit Greenberger-Horne-Zeilinger states in a superconducting quantum computer.
• [ ] Quasiprobability decompositions with reduced sampling overhead.
• [ ] Layered architecture for quantum computing.
• [ ] Scalable Quantum Circuit and Control for a Superconducting Surface Code.
• [ ] Cryo-CMOS Electronics for Quantum Computing Applications.
• [ ] Anyon computers with smaller groups.
• [ ] Quantum memories.
• [ ] Entanglement-based linear-optical qubit amplifier.
• [ ] Quantum repeaters based on atomic ensembles and linear optics.
• [ ] A heterogeneous quantum computer architecture.
• [ ] Cavity quantum electrodynamics for superconducting electrical circuits: An architecture for quantum computation.
• [ ] Ultrafast optical control of individual quantum dot spin qubits.
• [ ] A Quantum Engineer's Guide to Superconducting Qubits.
• [ ] Why I am optimistic about the silicon-photonic route to quantum computing.
• [ ] Quantum information processing with superconducting circuits: a review.
• [ ] Superconducting Circuits for Quantum Information: An Outlook.
• [ ] A quantum annealer with fully programmable all-to-all coupling via Floquet engineering.
• [ ] Possible realization of an ideal quantum computer in Josephson junction array.
• [ ] Nondestructive Detection of an Optical Photon.
• [ ] Direct generation of photon triplets using cascaded photon-pair sources.
• [ ] Prescription for experimental determination of the dynamics of a quantum black box.
• [ ] Pairing of Cooper Pairs in a Fully Frustrated Josephson Junction Chain.
• [ ] Quantum Spintronics: Engineering and Manipulating Atom-Like Spins in Semiconductors.
• [ ] Spin and pseudospins in layered transition metal dichalcogenides.
• [ ] Parallelization, Amplification, and Exponential Time Simulation of QIP Systems.
• [ ] Observation of many-body localization of interacting fermions in a quasi-random optical lattice.
• [ ] Towards Quantum Repeaters with Solid-State Qubits: Spin-Photon Entanglement Generation using Self-Assembled Quantum Dots.
• [ ] Coherent manipulation, measurement and entanglement of individual solid-state spins using optical fields.
• [ ] Interfacing spin qubits in quantum dots and donors—hot, dense, and coherent.
• [ ] Suppressing charge noise decoherence in superconducting charge qubits.
• [ ] 2n Quasihole States Realize 2n−1-Dimensional Spinor Braiding Statistics in Paired Quantum Hall States.
• [ ] New Method for High-Accuracy Determination of the Fine-Structure Constant Based on Quantized Hall Resistance.
• [ ] Spin–orbit-coupled Bose–Einstein condensates.
• [ ] Principles of Dilution Refrigeration.
• [ ] Spins in few-electron quantum dots.
• [ ] Charge insensitive qubit design derived from the Cooper pair box.
• [ ] Independent, extensible control of same-frequency superconducting qubits by selective broadcasting.

Quantum Information and HEP, General Relativity and Quantum Cosmology, Quantum Gravity

• [ ] Qudits for Witnessing Quantum Gravity Induced Entanglement of Masses Under Decoherence.
• [ ] Acoustic black holes: horizons, ergospheres, and Hawking radiation.
• [ ] Generalized gravitational entropy.
• [ ] Transcending the ensemble: baby universes, spacetime wormholes, and the order and disorder of black hole information.
• [ ] Cool horizons for entangled black holes.
• [ ] Replica Wormholes and the Entropy of Hawking Radiation.
• [ ] Replica wormholes and the black hole interior.
• [ ] The Universe from Scratch.
• [ ] Evaporation of large black holes in AdS: coupling to the evaporon.
• [ ] Quantum Extremal Surfaces: Holographic Entanglement Entropy beyond the Classical Regime.
• [ ] Holographic Quantum Error Correction and the Projected Black Hole Interior.
• [ ] The entropy of bulk quantum fields and the entanglement wedge of an evaporating black hole.
• [ ] Entanglement Wedge Reconstruction and the Information Paradox.
• [ ] Black Hole Information.
• [ ] Quantum Information and Relativity Theory.
• [ ] Reference frames, superselection rules, and quantum information.
• [ ] On the Power of One Bit of Quantum Information.
• [ ] Taking the Temperature of a Black Hole.
• [ ] Hawking versus Unruh effects, or the difficulty of slowly crossing a black hole horizon.
• [ ] Quantum mechanics near closed timelike lines.
• [ ] Closed timelike curves via post-selection: theory and experimental demonstration.
• [ ] Quantum mechanics of time travel through post-selected teleportation.
• [ ] Einselection and Decoherence from an Information Theory Perspective.
• [ ] Lorentz invariance and quantum gravity: an additional fine-tuning problem?
• [ ] Gaussian Quantum Information.
• [ ] Introduction to quantum Fisher information.
• [ ] Remarks on the notion of quantum integrability.
• [ ] Hand-waving and Interpretive Dance: An Introductory Course on Tensor Networks.
• [ ] The NANOGrav 12.5-year Data Set: Search For An Isotropic Stochastic Gravitational-Wave Background.
• [ ] The Fermionic canonical commutation relations and the Jordan-Wigner transform.
• [ ] Black Holes as Red Herrings: Topological Fluctuations and the Loss of Quantum Coherence.
• [ ] A Spin Entanglement Witness for Quantum Gravity.
• [ ] A post-quantum theory of classical gravity?
• [ ] Objective trajectories in hybrid classical-quantum dynamics.
• [ ] The role of gravitation in physics : report from the 1957 Chapel Hill Conference.
• [ ] Black holes as mirrors: quantum information in random subsystems.
• [ ] Detection of Gravitational Waves using Parametric Resonance in Bose-Einstein Condensates.
• [ ] Is a Classical Language Adequate in Assessing the Detectability of the Redshifted 21cm Signal from the Early Universe?.

Quantum Error Correction and Quantum Fault Tolerance

• [x] Perfect Quantum Error Correction Code.
• [x] The Heisenberg Representation of Quantum Computers.
• [x] Taming the instruction bandwidth of quantum computers via hardware-managed error correction.
• [ ] Quantum Error Correction for Beginners.
• [ ] A Class of Quantum Error-Correcting Codes Saturating the Quantum Hamming Bound.
• [ ] Quantum Error Correction via Codes over GF(4).
• [ ] Quantum Error Correction and Orthogonal Geometry.
• [ ] Universal Quantum Computation with ideal Clifford gates and noisy ancillas.
• [ ] Approximate quantum error correction revisited: introducing the alpha-bit.
• [ ] Experimental Quantum Error Correction.
• [ ] Fault-tolerant quantum computation.
• [ ] Fault-Tolerant Postselected Quantum Computation: Schemes.
• [ ] Fault-Tolerant Postselected Quantum Computation: Threshold Analysis.
• [ ] Theory of fault-tolerant quantum computation.
• [ ] Key ideas in quantum error correction.
• [ ] Resilient Quantum Computation.
• [ ] Resilient Quantum Computation: Error Models and Thresholds.
• [ ] Mixed State Entanglement and Quantum Error Correction.
• [ ] A Theory of Quantum Error-Correcting Codes.
• [ ] Stabilizer Codes and Quantum Error Correction.
• [ ] Building a fault-tolerant quantum computer using concatenated cat codes.
• [ ] Surface codes: To wards practical large-scale quantum computation.
• [ ] Fault-tolerant quantum computation by anyons.
• [ ] On the Quantum Correction For Thermodynamic Equilibrium.
• [ ] Threshold Accuracy for Quantum Computation.
• [ ] Holographic quantum error-correcting codes: Toy models for the bulk/boundary correspondence.

Foundations of Quantum Theory

• [x] Can Quantum-Mechanical Description of Physical Reality Be Considered Complete?
• [x] On the Einstein Podolsky Rosen Paradox.
• [x] Proposal for a quantum delayed-choice experiment.
• [x] Entanglement, discord and the power of quantum computation.
• [x] Entanglement certification and quantification in spatial-bin photonic qutrits.
• [x] Certifying the presence of a photonic qubit by splitting it in two.
• [x] On the freedom in representing quantum operations.
• [x] A single quantum cannot be cloned.
• [x] Quantum Steering.
• [ ] The Quantum Field Theory on Which the Everyday World Supervenes.
• [ ] Experimental violation of n-locality in a star quantum network.
• [ ] Progress on the proton-radius puzzle.
• [ ] Wjhat is Spin?
• [ ] nteger versus half-integer angular momentum.
• [ ] Quantum physics needs complex numbers.
• [ ] Energy Non-Conservation in Quantum Mechanics.
• [ ] What is Quantum Field Theory, and What Did We Think It Is?
• [ ] Quantum theory cannot consistently describe the use of itself.
• [ ] The preferred-basis problem and the quantum mechanics of everything.
• [ ] On the Consistent Histories Approach to Quantum Mechanics.
• [ ] Decoherence, einselection, and the quantum origins of the classical.
• [ ] Quantum Discord: A Measure of the Quantumness of Correlations.
• [ ] Measuring Quantum Coherence with Entanglement.
• [ ] Decoherence and the transition from quantum to classical.
• [ ] Towards a loophole-free test of Bell's inequality with entangled pairs of neutral atoms.
• [ ] Preferred Observables, Predictability, Classicality, and the Environment-Induced Decoherence.
• [ ] Environment-induced superselection rules.
• [ ] Pointer basis of quantum apparatus: Into what mixture does the wave packet collapse?
• [ ] Loophole-free Bell test based on local precertification of photon's presence.
• [ ] On the Hardness of Detecting Macroscopic Superpositions.
• [ ] Entanglement detection via mutually unbiased bases.
• [ ] Experimental loophole-free violation of a Bell inequality using entangled electron spins separated by 1.3 km.
• [ ] Measures on the Closed Subspaces of a Hilbert Space.
• [ ] Hidden Variables and the Two Theorems of John Bell.
• [ ] Imaging Bell-type nonlocal behavior.
• [ ] Unknown Quantum States: The Quantum de Finetti Representation.
• [ ] "Event-Ready-Detectors" Bell Experiment via Entanglement Swapping.
• [ ] Homer nodded: von Neumann's surprising oversight.
• [ ] Ruling Out Multi-Order Interference in Quantum Mechanics.
• [ ] Out-of-time-order correlators in quantum mechanics.
• [ ] Quantum reversibility is relative, or does a quantum measurement reset initial conditions?.
• [ ] Non-Markovian dynamics in open quantum systems.
• [ ] On mutually unbiased bases.
• [ ] Negative Probability.
• [ ] Measuring the time a tunnelling atom spends in the barrier.
• [ ] Quantum Non-Locality.

Foundations of Quantum Computation

• [x] Quantum Computation with Coherent Spin States and the Close Hadamard Problem.
• [x] A hidden variable model for universal quantum computation with magic states on qubits.
• [x] A one-way quantum computer.
• [ ] Concentrating Partial Entanglement by Local Operations.
• [ ] Conditions for a class of entanglement transformations.
• [ ] Topological quantum memory.
• [ ] Consequences and Limits of Nonlocal Strategies.
• [ ] Aspects of generic entanglement.
• [ ] Stabilizer Formalism for Operator Quantum Error Correction.
• [ ] On Random and Hard-to-Describe Numbers.
• [ ] A convergent hierarchy of semidefinite programs characterizing the set of quantum correlations.
• [ ] Most quantum states are too entangled to be useful as computational resources.
• [ ] Tradeoffs for reliable quantum information storage in 2D systems.
• [ ] The Church of the Symmetric Subspace.
• [ ] Fusion-based quantum computation.
• [ ] On Quantum Detection and the Square-Root Measurement.
• [ ] Simulating physics with computers.
• [ ] Universal blind quantum computation.
• [ ] Experimental Demonstration of Blind Quantum Computing.
• [ ] Efficient classical simulation of slightly entangled quantum computations.
• [ ] Distance measures to compare real and ideal quantum processes.
• [ ] Quasi-exact quantum computation.
• [ ] Bloch vectors for qudits.
• [ ] Entanglement of Formation of an Arbitrary State of Two Qubits.
• [ ] Topological Quantum Computation.
• [ ] Nonnegative subtheories and quasiprobability representations of qubits.
• [ ] Quantum Garbled Circuits.
• [ ] Measure for the Degree of Non-Markovian Behavior of Quantum Processes in Open Systems.
• [ ] Qudits and high-dimensional quantum computing.
• [ ] Quantum Annealing and Analog Quantum Computation.
• [ ] Quantum Resource Theories.
• [ ] Dynamical resource theory of quantum coherence.
• [ ] How to quantify a dynamical quantum resource.
• [ ] Quantum Lower Bounds by Polynomials.
• [ ] Strengths and Weaknesses of Quantum Computing
• [ ] Quantum Lower Bounds by Quantum Arguments.
• [ ] Succinct Quantum Proofs for Properties of Finite Groups.
• [ ] Tunneling spectroscopy using a probe qubit.
• [ ] Identifying challenges towards practical quantum advantage through resource estimation: the measurement roadblock in the variational quantum eigensolver.
• [ ] A Short Introduction to Topological Quantum Computation.
• [ ] No-go theorems for quantum resource purification.
• [ ] A modular functor which is universal for quantum computation.

Quantum Tomography

• [ ] Self-consistent quantum process tomography.
• [ ] Robust, self-consistent, closed-form tomography of quantum logic gates on a trapped ion qubit.
• [ ] Demonstration of qubit operations below a rigorous fault tolerance threshold with gate set tomography.

Quantum Sensing

• [ ] Quantum sensing.

Quantum Thermodynamics

• [ ] Entropy accumulation with improved second-order term.
• [ ] Entropy accumulation
• [ ] Notes on Landauer's principle, reversible computation, and Maxwell's Demon.

Quantum Chemistry

• [ ] Quantum Chemistry in the Age of Quantum Computing.
• [ ] Q# and NWChem: Tools for Scalable Quantum Chemistry on Quantum Computers.
• [ ] Forming a single molecule by magnetoassociation in an optical tweezer.
• [ ] The Spectroscopy of C2: A Cosmic Beacon.
• [ ] Crossover from hydrogen to chemical bonding.
• [ ] Large-amplitude transfer motion of hydrated excess protons mapped by ultrafast 2D IR spectroscopy.

Quantum Biology

• [x] Can Quantum Physics Help Solve the Hard Problem of Consciousness?
• [ ] Quantum Cognition: The possibility of processing with nuclear spins in the brain.
• [ ] The origins of quantum biology.
• [ ] On Interfacing the Brain with Quantum Computers: An Approach to Listen to the Logic of the Mind.

Quantum Music

• [x] Quantum music.
• [x] Creative Quantum Computing: Inverse FFT, Sound Synthesis, Adaptive Sequencing and Musical Composition.
• [x] Quantum Computer: Hello, Music!.

Misc.

• [x] Quanta Magazine post on the "end" of the black hole information paradox.
• [ ] Not Even Wrong Blog.
• [ ] Principles of Effective Research.
• [ ] Quantum Drones Take Flight.
• [ ] What, exactly, is a photon?
• [ ] John Baez - State-Observable Duality.
• [ ] The Logic of Quantum Mechanics.
• [ ] The logic of quantum mechanics - Take II.
• [ ] The Quantum Illumination Story.
• [ ] Quantum attacks on Bitcoin, and how to protect against them.
• [ ] A Computer Scientist's View of Life, the Universe, and Everything.
• [ ] Defining and identifying Sleeping Beauties in science.
• [ ] Quantum voting and violation of Arrow's Impossibility Theorem.
• [ ] Wilczek on the Problems of Fundamental Physics.
• [ ] Most papers of Charles H. Bennet, Wojciech Zurek, and Seth Lloyd.

Talks and Videos

• [x] This Minute Physics video which, in my opinion, is the most intuitive explanation of Shor's algorithm.
• [x] This Stack question which explains an important intuition behind the use of eigenvalues and eigenvectors in QM.
• [x] Prof. Brian Greene's explanation of Bell's theorem.
• [x] Prof. Umesh Vazirani's explanation of Grover's search algorithm, which unlike other online tutorials, actually explains why the diffusion operator works.
• [x] D-Wave systems' explanation of Quantum Annealing.
• [x] Seth Lloyd's talk on QM, Time Travel and the relation between CTC and Quantum Complexity Theory.
• [x] Stack Question: Why is there a kx in the wave equation?
• [x] The best explanation of the Laplace Transform on the entire internet.
• [x] Edward Witten's talk on Knots and Quantum Theory.
• [x] Prof. Barry C. Sanders' talks on Quantum Simulation.
• [x] Bob Coecke - Why NLP is quantum-native, and beyond!
• [x] Eduardo Miranda—The Dawn of Quantum Computer Music: A Natural Progression.
• [x] Nathan Weibe's lecture on Amplitude Amplification.
• [ ] Jonathan Oppenheim - A post-quantum theory of classical gravity?
• [ ] Prof. Raymond Laflamme's talk on Quantum Error Correction.
• [ ] Prof. Chris Bishop's lectures on Graphical Models.