The Net Advance of Physics:
INFORMATION
General: Introductory:
Understanding Shannon's Entropy metric for Information
by Sriram Vajapeyam [2014/05]
General:
IEEE Information Theory Society Shannon Lectures
by various authors [ITS]
A Short Course in Information Theory
by David J. C. MacKay [Cambridge, 1995]
The Physics of Information
by F. Alexander Bais and J. Doyne Farmer [2007/08] 64 pp.
Generalized information and entropy measures in physics
by Christian Beck [2009/02]
Information Theory and Statistical Physics - Lecture Notes
by Neri Merhav [2010/06] 176pp.
A primer on information theory, with applications to neuroscience
by Felix Effenberger [2013/04]
Summary of Information Theoretic Quantities
by Robin A. A. Ince et al. [2015/01]
Estimating Information-Theoretic Quantities
by Robin A. A. Ince et al. [2015/01]
What is Information?
by Christoph Adami [2016/01]
A Brief Introduction on Shannon's Information Theory
by Ricky X. F. Chen [2016/12]
Divergence, Entropy, Information: An Opinionated Introduction to Information Theory
by Philip Chodrow [2017/08]
Information Theory: A Tutorial Introduction
by James V. Stone [2018/02]
A Mini-Introduction to Information Theory
by Edward Witten [2018/05]
Maxwell's Demon, Szilard Engine and Landauer Principle
by Priyo Shankar Pal and A. M. Jayannavar [2019/04]
A visual introduction to information theory
by H. Pinkard and L. Waller [2022/06]
Type: ALGORITHMIC:
Lecture notes on descriptional complexity and randomness
by P. Gacs [2021/05]
Type: FISHER-RAO:
Bengtsson 2005/09;
Generalisations of Fisher Matrices
by Alan Heavens [2016/06]
A Tutorial on Fisher Information
by Alexander Ly et al. [2017/05]
Type: QUANTUM:
Cleve 99/06;
Nielsen 2000/11;
Keyl 2002/02;
Timpson 2006/11;
Guide to Mathematical Concepts of Quantum Theory
by Teiko Heinosaari, Mario Ziman [2008/10] Really of quantum information theory and quantum measurement. 188 pp.
Quantum Communication Technology
by Nicolas Gisin and Rob Thew [
Electronics Letters 46
, 965 (2010)]
Quantum Computation and Quantum Information
by Yazhen Wang [
Statistical Science 27
, 373 (2012)]
Identification Via Quantum Channels
by Andreas Winter [2012/12]
Basic Concepts in Quantum Information
by Steven M. Girvin [2013/02]
Introduction to Physical Quantum Information Processing
by Stephan Dürr [2013/03]
An Introduction to the Formalism of Quantum Information
by Carlos Navarrete-Benloch [2015/04]
Introduction to quantum information theory and outline of two applications to physics: the black hole information paradox and the renormalization group information flow
by Fabio Grazioso [2015/07]
Quantum Information Meets Quantum Matter -- From Quantum Entanglement to Topological Phase in Many-Body Systems
by Bei Zeng et al. [2015/08] 349 pp.
Random matrix techniques in quantum information theory
by Benoit Collins and Ion Nechita [2015/09]
Quantum Shannon Theory
by John Preskill [2016/04] 112 pp., 15 exercises.
A very brief introduction to quantum computing and quantum information theory for mathematicians
by J. M. Landsberg [2018/01]
Quantum Theory: Informational Foundations and Foils (book introduction)
by Giulio Chiribella and Robert W. Spekkens [2018/05]
Quantum information for particle theorists
by J. D. Lykken [2020/10]
Quantum information
by R. Horodecki [2021/03]
Type: QUANTUM: CHANNELS:
Quantum channels and their entropic characteristics
by A. S. Holevo and Vittorio Giovannetti [2012/02]
Properties of the Quantum Channel
by Laszlo Gyongyosi and Sandor Imre [2012/08] 256 pp.
A Survey on Quantum Channel Capacities
by Laszlo Gyongyosi et al [2018/01]
Type: QUANTUM: CORRELATIONS:
Measures and applications of quantum correlations
by Gerardo Adesso et al. [
Journal of Physics A 49
, 473001 (2016)]
Type: QUANTUM: FINITE RESOURCES:
Quantum Information Processing with Finite Resources - Mathematical Foundations
by Marco Tomamichel [2015/04] 135 pp.
Type: QUANTUM: GAUSSIAN STATES:
Quantum information with Gaussian states
by X.-B. Wang et al. [
Phys. Reports 448
, 1 (2007)]
Type: QUANTUM: NOISE:
Review of Decoherence Free Subspaces, Noiseless Subsystems, and Dynamical Decoupling
by Daniel A. Lidar [2012/08]
Type: QUANTUM: OPEN QUESTIONS:
Krueger and Werner 2005/04 -;
Some Open Problems in Quantum Information Theory
by Mary Beth Ruskai [2007/08]
Type: QUANTUM: Re: PARTICLE PHYSICS:
Quantum information for particle theorists
by J. D. Lykken [2020/10]
Type: QUANTUM: PHASE:
Geometric phases in quantum information
by Erik Sjöqvist [2015/03]
Type: QUANTUM: PROTECTIVE MEASUREMENTS:
Protective Measurements
by Lev Vaidman [2008/01]
Type: QUANTUM: Re: QUANTUM GRAVITY:
Lectures on Gravity and Entanglement
by Mark Van Raamsdonk [2016/09]
Type: QUANTUM: Re: RELATIVITY:
Peres and Terno 2002/12;
Terno 2005/08;
Type: QUANTUM: SELF-TESTING:
Self-Testing of Quantum Systems: A Review
by Ivan Šupić and Joseph Bowles [2019/04]
Type: QUANTUM: STATE-DISCRIMINATION:
Quantum state discrimination and its applications
by Joonwoo Bae and Leong-Chuan Kwek [
Journal of Physics A 48
, 083001 (2015)]
Aspects: ERROR-CORRECTING CODES:
A Short Course on Error-Correcting Codes
by Mario Blaum [2019/08]
Quantum Error Correction
by Todd A. Brun [2019/10]
Aspects: HAMMING DISTANCE:
Hamming's Original Paper Rewritten in Symbolic Form: A Preamble to Coding Theory
by H. Gopalakrishna Gadiyar and R. Padma [2014/01] Very concise and aimed at undergraduates.
Aspects: SIGNAL RECOVERY:
A concise tutorial on approximate message passing
by Q.-Y. Zu and H.-W. Yang [2022/01]
Re: BIOLOGY:
The use of information theory in evolutionary biology
by Christoph Adami [2011/12]
Applications of Information Theory to Analysis of Neural Data
by Simon R. Schultz et al. [2015/01]
Estimating Information-Theoretic Quantities
by Robin A. A. Ince et al. [2015/01]
Re: BLACK HOLES:
Bekenstein 2001/07;
Jerusalem Lectures on Black Holes and Quantum Information
by Daniel Harlow [2014/09]
Re: DIFFERENTIAL GEOMETRY:
An elementary introduction to information geometry
by Frank Nielsen [2018/08]
Re: FEEDBACK:
Open Problems on Information and Feedback Controlled Systems
by Francisco J. Cao and M. Feito [
Entropy 14
, 834 (2012)]
Re: RANDOM MATRICES:
Random matrix techniques in quantum information theory
by Benoit Collins and Ion Nechita [2015/09]
Lost to Black Holes,
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THE NET ADVANCE OF PHYSICS