Books on Particle Physics

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22BEA251CFA971974FDC4277A5881BAEE0C82816
Number of Files:
229
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3.01GB
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2014-08-22
Keywords:
BooksonParticlePhysics
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File Name
Size
Particle Physics in the New Millennium [Trampetic-Wess].pdf
217.66MB
Astroparticle, Particle and Space Physics, Detectors and Medical Physics Applications.pdf
88.28MB
Conceptual Foundations of Modern Particle Physics [Marshak].pdf
76.5MB
Review of Particle Physics 2006 (Particle Data Group).pdf
73.1MB
Symmetry Principles in Elementary Particle Physics [Gibson-Pollard].pdf
63.64MB
Q Is for Quantum - An Encyclopedia of Particle Physics.pdf
56.12MB
Calorimetry in Particle Physics.pdf
52.29MB
Advanced Technology and Particle Physics [Barone].pdf
50.39MB
Group Theory for the Standard Model of Particle Physics and Beyond [Barnes].pdf
50.11MB
Lie Algebras in Particle Physics [Georgi].pdf
48.7MB
Quantum Physics of Atoms, Molecules, Solids, Nuclei, and Particles [Eisberg-Resnick].pdf
45.04MB
Matter Particled - Patterns, Structure and Dynamics - Selected Research Papers of Yuval Ne'eman [Verbin-Ruffini].pdf
43.85MB
Physics Beyond the Standard Models of Particles, Cosmology and Astrophysics [Klapdor_Kleingrothaus-Krivosheina].pdf
39.4MB
Review of Particle Physics [Particle Data Group, 2010].pdf
39.28MB
Particles and Waves - Historical Essays in the Philosophy of Science [Achinstein].pdf
36.52MB
Handbook of Particle Detection and Imaging [Grupen-Buvat].pdf
35.79MB
Pions to Quarks - Particle Physics in the 1950s [Brown-Dresden-Hoddeson].pdf
35.27MB
The Rise of the Standard Model - Particle Physics in the 1960s and 1970s [Hoddeson-Brown-Riordan-Dresden].pdf
34.25MB
Particles, Sources, and Fields, Volume I [Schwinger].pdf
33.79MB
Spin in Particle Physics [Leader].pdf
31.71MB
Elementary Particle Physics [Kallen].pdf
30.49MB
Theory and Phenomenology of Sparticles [Drees-Godbole-Roy].pdf
28.46MB
Charged Particle Beams.pdf
27.87MB
Smoothed Particle Hydrodynamics - A Meshfree Particle.pdf
27.86MB
Principles of Phase Structures in Particle Physics.pdf
27.71MB
Charged Particle and Photon Interactions with Matter [Hatano-Katsumura-Mozumder].pdf
25.66MB
Classical Dynamics of Particles and Systems [Thornton-Marion].pdf
25.46MB
A Modern Introduction to Particle Physics [Fayyazuddin-Riazuddin].pdf
25MB
Quantum Theory of Many-Particle Systems [Fetter-Walecka].pdf
24.62MB
Particle Physics in Laboratory, Space And Universe.pdf
23.31MB
Particle Physics and the Universe [Bergstrom-Fransson-Carlson].pdf
23.16MB
The Experimental Foundations of Particle Physics [Cahn-Goldhaber].pdf
22.35MB
Dark Matter in Astroparticle and Particle Physics, Dark 2007 [Klapdor_Kleingrothaus-Lewis].pdf
22.08MB
The Particle Century [Fraser].pdf
22.07MB
The Great Design - Particles, Fields, and Creation [Adair].pdf
21.81MB
Cosmology and Particle Astrophysics [He-Ng].pdf
21.66MB
Recent Developments in Particle Physics and Cosmology [Branco-Shafi-Silva_Marcos].pdf
21.64MB
Elementary Particles [Kobzarev-Manin].pdf
21.31MB
Introduction to Particle Physics [Omnes].pdf
21.22MB
Techniques for Nuclear and Particle Physics Experiments - A How-To Approach.pdf
21.12MB
Handbook of Particle Physics [Sundaresan].pdf
21.06MB
An Introduction to the Passage of Energetic Particles through Matter.pdf
20.7MB
Particles and the Universe [Astbury-Campbell-Khanna-Vincter].pdf
20.19MB
New Worlds in Astroparticle Physics - Proceedings of the Fifth International Workshop.pdf
20.15MB
Introduction to Elementary Particles [Griffiths].pdf
19.42MB
At the Frontier of Particle Physics - Handbook of QCD, Volume 4.pdf
19.27MB
Particle Physics on the Eve of LHC.pdf
18.89MB
Frontiers of Particle Beams - Observation, Diagnosis and Correction [Month].pdf
18.88MB
Relativity, Groups, Particles - Special Relativity and Relativistic Symmetry in Field and Particle Physics [Sexl-Urbantke].pdf
18.6MB
Particles, Sources, and Fields, Volume II [Schwinger].pdf
18.46MB
The Particle Odyssey - A Journey to the Heart of Matter.pdf
18.3MB
Geometry, Particles, and Fields [Felsager].pdf
18.13MB
Introduction to Nuclear and Particle Physics.pdf
18.06MB
Particles, Sources, and Fields, Volume III [Schwinger].pdf
17.77MB
Invariance Principles and Elementary Particles [Sakurai].pdf
17.69MB
Modern Many-Particle Physics - Atomic Gases, Quantum Dots and Quantum Fluids.pdf
17.68MB
Frontiers of Particle Physics.pdf
16.59MB
Lectures On Elementary Particles and Quantum Field Theory, Volume 1 [Deser-Grisaru-Pendleton].pdf
16.57MB
Dark Matter in Astro- and Particle Physics, Dark 2004 [Klapdor_Kleingrothaus-Lewis].pdf
16.42MB
ITEP Lectures on Particle Physics and Field Theory, Volume 1 [Shifman].pdf
16.36MB
Astroparticle Physics and Cosmology [Senjanovic-Smirnov-Thompson].pdf
15.21MB
Mechanical Systems, Classical Models - Volume 1 - Particle Mechanics [Teodorescu].pdf
15.13MB
New Worlds in Astroparticle Physics - Proceedings otthe Fourth International Workshop.pdf
15.07MB
Algebraic Theory of Particle Physics - Hadron Dynamics in Terms of Unitary Spin Currents [Ne'eman].pdf
14.99MB
Evolution of Silicon Sensor Technology in Particle Physics.pdf
14.94MB
Elementary Particle Physics, Volume 2 - Foundations of the Standard Model [Nagashima].pdf
14.89MB
Geometrical Charged-Particle Optics.pdf
14.77MB
The Discovery of Subatomic Particles [Weinberg].pdf
14.77MB
Neutrinos in Particle Physics, Astrophysics and Cosmology [Soler- Froggatt-Muheim].pdf
14.37MB
Concepts of Particle Physics - Volume II [Gottfried-Weisskopf].pdf
14.23MB
A Treatise On The Analytical Dynamics Of Particles And Rigid Bodies With An Introduction To The Problem Of Three Bodies (1917).djvu
14.2MB
Particle Detectors.pdf
13.9MB
Particle Physics - A Comprehensive Introduction [Seiden].pdf
13.5MB
An Introduction to Gauge Theories and Modern Particle Physics, Vol. 2 [Leader-Predazzi].pdf
13.38MB
Field Theory in Elementary Particles [Perlmutter].pdf
13.05MB
Handbook of Charged Particle Optics [Orloff].pdf
12.91MB
Fields, Particles and Currents [Voelkel].pdf
12.65MB
Particles and Fundamental Interactions [Braibant-Giacomelli-Spurio].pdf
12.63MB
ITEP Lectures on Particle Physics and Field Theory, Volume 2 [Shifman].pdf
12.58MB
Particles and Fields [Alves-Eboli- Rivelles].pdf
12.43MB
Particle Physics and Cosmology - The Quest for Physics beyond the Standard Model(s) [Haber-Nelson].pdf
12.18MB
Concepts of Particle Physics - Volume I [Gottfried-Weisskopf].pdf
12.17MB
Field Theoretical Tools for Polymer and Particle Physics.pdf
12.1MB
Quarks and Leptons - An Introductory Course in Modern Particle Physics [Halzen-Martin].pdf
11.84MB
At the Frontier of Particle Physics - Handbook of QCD, Volume 2.pdf
11.69MB
Facts and Mysteries in Elementary Particle Physics [Veltman].pdf
11.46MB
The Big and the Small - Journey into the Microcosm - The Story of Elementary Particles, Vol. 1 [Venkataraman].pdf
11.27MB
Cosmic Rays and Particle Physics [Gaisser].pdf
11.27MB
Particle Physics [Martin-Shaw].pdf
10.87MB
The Tiger and the Shark - Empirical Roots of Wave-Particle Dualism [Wheaton].pdf
10.81MB
Solar, Stellar and Galactic Connections between Particle Physics and Astrophysics.pdf
10.67MB
Euruka! Physics of Particles, Matter and the Universe.pdf
10.5MB
Particle Accelerator Physics.pdf
10.42MB
Particle Physics Phenomenology.pdf
10.29MB
The Nature of the Elementary Particle [MacGregor].pdf
10.09MB
Elementary Particle Physics - Concepts and Phenomena [Nachtmann].pdf
10.06MB
At the Frontier of Particle Physics - Handbook of QCD, Volume 1.pdf
9.9MB
Quarks and Gluons - A Century of Particle Charges [Han].pdf
9.85MB
String Theory and Particle Physics - An Introduction to String Phenomenology [Ibanez-Uranga].pdf
9.78MB
Principles of Charged Particle Acceleration [Humphries].pdf
9.61MB
Elementary Particles and the Universe - Essays in Honor of Murray Gell-Mann [Schwarz].pdf
9.41MB
Elementary Particle Theory [Martin-Spearman].djvu
9.32MB
The Charm of Strange Quarks - Mysteries and Revolutions of Particle Physics [Barnett-Muehry-Quinn].pdf
9.29MB
Symmetries and Group Theory in Particle Physics [Costa-Fogli].pdf
9.01MB
Elementary Particles [Hughes].djvu
8.64MB
Elementary Particle Physics, Volume 1 - Quantum Field Theory and Particles [Nagashima].pdf
8.56MB
Trapped Charged Particles and Fundamental Interactions [Blaum-Herfurth].pdf
8.53MB
Particle Physics and the Universe [Trampetic-Wess].pdf
8.5MB
Elementary Particles and Their Interactions [Ho Kim-Pham].djvu
8.42MB
Many-Particle Physics.djvu
8.3MB
The Physics of Elementary Particles [Muirhead].pdf
8.28MB
Materials, Matter and Particles - A Brief History [Woolfson].pdf
8.28MB
Quarks - Frontiers in Elementary Particle Physics [Nambu].pdf
8.24MB
Charged Particle Traps II - Applications [Werth-Gheorghe-Major].pdf
8.15MB
Neutrinos in Particle Physics, Astronomy and Cosmology [Xing-Zhou].pdf
7.99MB
Elementary Particles [Fermi].pdf
7.96MB
Particle Physics at the Year of Astronomy [Studenikin].pdf
7.83MB
Astroparticle Physics [Grupen].pdf
7.73MB
Noncommutative Geometry and the Standard Model of Elementary Particle Physics [Scheck-Werner-Upmeier].pdf
7.7MB
Modern Theories of Many-Particle Systems in Condensed Matter Physics [Cabra-Honecker].pdf
7.38MB
Electromechanics of Particles [Jones].pdf
7.34MB
Niels Bohr - Collected Works, Vol. 08 - The Penetration of Charged Particles through Matter (1912-1954) [Bohr].djvu
7.2MB
Dynamics of Particles and Rigid Bodies.pdf
7MB
Particle Characterization - Light Scattering Methods.djvu
6.86MB
Particle Physics and Cosmology - The Interface [Kazakov-Smadja].pdf
6.74MB
Introduction to experimental particle physics.djvu
6.69MB
Charged Particle Traps - Physics and Techniques of Charged Particle Field Confinement [Major-Gheorghe-Werth].pdf
6.63MB
Application of Distributions to the Theory of Elementary Particles in Quantum Mechanics [Schwartz].pdf
6.56MB
Classical Mechanics - Systems of Particles and Hamiltonian Dynamics [Greiner].pdf
6.55MB
Advanced Particle Physics - Particles, Fields, and Quantum Electrodynamics, Volume I [Boyarkin].pdf
6.45MB
Fundamentals of Cosmoparticle Physics [Khlopov].pdf
6.41MB
Quantum Field Theory of Point Particles and Strings.djvu
6.4MB
Modern Particle Physics [Thomson].pdf
6.3MB
Particles and Quantum Fields.djvu
6.29MB
Diffraction Radiation from Relativistic Particles [Potylitsyn-Ryazanov-Strikhanov-Tishchenko].pdf
6.23MB
An Introduction to Elementary Particles [Williams].pdf
6.1MB
Scattering Theory of Classical and Quantum N-Particle Systems.pdf
6.07MB
Introduction to Physics of Elementary Particles [Boyarkin].pdf
5.99MB
Particle Physics and Field Theory, Volume I (ITEP Lectures).djvu
5.96MB
Particle Physics [Kennedy].pdf
5.88MB
Particles and the Universe - Facts On File [Kirkland].pdf
5.86MB
Particle Physics Booklet [Particle Data Group, July 2010].pdf
5.85MB
Electromagnetic Field and Relativistic Particles [Konopinski].djvu
5.77MB
Scattering, Absorption, and Emission of Light by Small Particles.djvu
5.7MB
Particle Accelerators, Colliders, and the Story of High Energy Physics - Charming the Cosmic Snake [Jayakumar].pdf
5.6MB
2002 Summer School on Astroparticle Physics and Cosmology [Dvali-Perez_Lorenzana-Senjanovic].pdf
5.55MB
Particles and Paradoxes - The Limits of Quantum Logic [Gibbins].pdf
5.44MB
The Ideas of Particle Physics - An Introduction for Scientists [Coughlan-Dodd-Gripaios].pdf
5.33MB
Lectures On Elementary Particles and Quantum Field Theory, Volume 2 [Deser-Grisaru-Pendleton].djvu
5.32MB
Classical Charged Particles [Rohrlich].djvu
5.25MB
Particle Physics and the Schroedinger Equation [Grosse-Martin].pdf
5.01MB
Particles and Nuclei - An Introduction to the Physical Concepts.pdf
4.96MB
Modern Elementary Particle Physics [Kane].djvu
4.92MB
Uniformly Accelerating Charged Particles - A Threat to the Equivalence Principle.pdf
4.85MB
Nuclear Physics with Polarized Particles [Paetz gen. Schieck].pdf
4.83MB
Computational Many-Particle Physics.djvu
4.73MB
Particle Physics and Field Theory, Volume II (ITEP Lectures).djvu
4.71MB
Particle Astrophysics [Klapdor_Kleingrothaus-Zuber].djvu
4.61MB
Nuclear and Particle Physics - An Introduction [Martin].pdf
4.56MB
Introduction to Elementary Particle Physics [Bettini].pdf
4.55MB
Gauge Theories in Particle Physics, Volume II - QCD and the Electroweak Theory [Aitchison-Hey].pdf
4.47MB
Particle Physics [DeWitt-Itzykson].djvu
4.47MB
An Introduction to Gauge Theories and Modern Particle Physics, Vol. 1 [Leader-Predazzi].pdf
4.46MB
Quantum - The Quantum Theory of Particles, Fields and Cosmology [Elbaz].djvu
4.33MB
Symmetries in Elementary Particle Physics [Zichichi].pdf
4.31MB
Particle Physics and Introduction to Field Theory.djvu
4.26MB
Classical Mechanics - Point Particles and Relativity [Greiner].pdf
4.25MB
Particle and Astroparticle Physics.pdf
4.21MB
Statistical Problems in Particle Physics, Astrophysics And Cosmology.djvu
4.04MB
Advanced Particle Physics - The Standard Model and Beyond, Volume II [Boyarkin].pdf
3.95MB
Relativistic Collisions of Structured Atomic Particles.pdf
3.92MB
Astroparticle Physics [Athar-Lin Lin-Wang Ng].pdf
3.87MB
Particle Astrophysics [Perkins].pdf
3.82MB
The Britannica Guide to Particle Physics [Gregersen].pdf
3.7MB
Particle Metaphysics - A Critical Account of Subatomic Reality [Falkenburg].pdf
3.68MB
Elementary Particles and Their Currents [Bernstein].pdf
3.67MB
The Operator Approach to Dual Multiparticle Theory.djvu
3.61MB
High-Energy Particle Diffraction.djvu
3.6MB
Spinning Particles - Semiclassics and Spectral Statistics [Keppeler].pdf
3.6MB
Kinematical Theory of Spinning Particles [Rivas].pdf
3.52MB
Fundamentals of Cosmic Particle Physics [Khlopov].pdf
3.46MB
Particle Physics - A Very Short Introduction [Close].pdf
3.41MB
Exploring Fundamental Particles [Wolfenstein-Silva].pdf
3.41MB
A Palette of Particles [Bernstein].pdf
3.28MB
Problems and Solutions on Atomic, Nuclear, and Particle Physics [Lim].pdf
3.05MB
Introduction to the Classical Theory of Particles and Fields [Kosyakov].pdf
3.05MB
An Introduction to Non-Abelian Discrete Symmetries for Particle Physicists [Ishimori-Kobayashi-Ohki-Okada-Shimizu-Tanimoto].pdf
2.85MB
Notes on Elementary Particle Physics [Muirhead].pdf
2.82MB
Statistical Physics of Particles.djvu
2.8MB
Nuclear and Particle Physics.pdf
2.76MB
Operational Spacetime - Interactions and Particles [Saller].pdf
2.75MB
Statistics for Nuclear and Particle Physicists.djvu
2.56MB
Confluence of Cosmology, Massive Neutrinos, Elementary Particles, and Gravitation.pdf
2.46MB
Elementary Particles and the Laws of Physics - The 1986 Dirac Memorial Lectures [Feynman-Weinberg].pdf
2.44MB
Gauge Theories in Particle Physics, Volume I - From Relativistic Quantum Mechanics to QED [Aitchison-Hey].djv
2.4MB
Interacting Particle Systems.djvu
2.36MB
2001 Summer School on Particle Physics [Masiero-Senjanovic-Smirnov-Thompson].pdf
2.35MB
Dynamics of Charged Particles and their Radiation Field [Spohn].pdf
2.31MB
An Introduction to the Standard Model of Particle Physics.pdf
2.28MB
Introduction to Cosmology and Particle Physics.djvu
2.28MB
Free Energy and Self-Interacting Particles.pdf
2.26MB
Translation Group and Particle Representations in Quantum Field Theory [Borchers].djvu
2.21MB
Gauge Theory of Elementary Particle Physics [Cheng-Li].djvu
2.14MB
The Physical Universe - The Interface Between Cosmology, Astrophysics and Particle Physics [Barrow-Henriques-Lago-Longair].djvu
2.13MB
Nonlinear Dynamics in Particle Accelerators [Dilao-Alves_Pires].djvu
2.03MB
Symmetry and the Standard Model - Mathematics and Particle Physics [Robinson].pdf
2.02MB
Particle Physics and Inflationary Cosmology.pdf
1.99MB
Supersymmetry, Supergravity and Particle Physics.djvu
1.95MB
The Particle Hunters [Ne'eman-Kirsh].djvu
1.95MB
Mathematical Mechanics - From Particle to Muscle [Cooper].pdf
1.85MB
Elementary Particle Physics - Revealing the Secrets of Energy and Matter.pdf
1.69MB
Collider - The Search for the World's Smallest Particles [Halpern].pdf
1.68MB
Electrodynamics and Classical Theory of Fields and Particles [Barut].djvu
1.65MB
CP Violation in Particle, Nuclear and Astrophysics.djvu
1.56MB
Electrodynamics for a Particle Accelerated to the Speed of Light with Constant Mass [Abdullahi].pdf
1.39MB
Elementary Particles - Building Blocks of Matter [Fritzsch].pdf
1.37MB
From the Universe to the Elementary Particles [Ellwanger].pdf
1.35MB
Constructing Reality - Quantum Theory and Particle Physics [Marburger].pdf
1.34MB
The Two-Photon Particle Production Mechanism.djvu
1.2MB
Supersymmetry in Particle Physics - An Elementary Introduction [Aitchison].pdf
1.18MB
Particles Here and Beyond the Mirror [Rabounski-Borissova].pdf
1.13MB
Quark Model (from Particle Data Group, 2010) [Nakamoura].pdf
1.11MB
Interactions in Modern Particle Theory - Weak Interactions [Georgi].pdf
987.2KB
The Origin of Discrete Particles [Bastin-Kilmister].pdf
907.39KB
Cosmology for Particle Physicists [Yajnik].pdf
677.24KB
Relativistic Field Theories of Elementary Particles [Pauli].djvu
464.79KB
Introduction to Groups, Invariants and Particles [Firk].pdf
392.44KB
Path Integral Formulation of Quantum Electrodynamics from Classical Particle Trajectories.DJV
337.6KB
''Books on Particle Physics'' List.xlsx
19.45KB

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