List of publications in physics

This is a list of important publications in physics, organized by field.

Some reasons why a particular publication might be regarded as important:

• Topic creator – A publication that created a new topic
• Breakthrough – A publication that changed scientific knowledge significantly
• Influence – A publication which has significantly influenced the world or has had a massive impact on the teaching of physics.

• Isaac Newton

Description: The Philosophiae Naturalis Principia Mathematica (Latin: "mathematical principles of natural philosophy", often Principia or Principia Mathematica for short) is a three-volume work by Isaac Newton published on July 5, 1687. Probably the most influential scientific book ever published, it contains the statement of Newton's laws of motion forming the foundation of classical mechanics as well as his law of universal gravitation. He derives Kepler's laws for the motion of the planets (which were first obtained empirically).

In formulating his physical theories, Newton had developed a field of mathematics known as calculus.

Importance: Topic creator, Breakthrough, Influence

• Albert Einstein
• Annalen der Physik. June 30, 1905
• On the Electrodynamics of Moving Bodies

Description: Special relativity, developed in 1905, only considers observers in inertial reference frames which are in uniform motion with respect to each other. Einstein's paper that year was called "On the Electrodynamics of Moving Bodies". While developing this theory, Einstein wrote to Mileva (his wife) about "our work on relative motion". This paper introduced the special theory of relativity, a theory of time, distance, mass and energy. The theory postulates that the speed of light in vacuum will be the same for these observers. Special relativity solved the puzzle that had been apparent since the Michelson-Morley experiment, which had failed to show that light waves were travelling through any medium (other known waves travelled through media - such as water or air). It had been suggested that light waves actually did not travel through any medium: the speed of light was thus fixed, and not relative to the movement of the observer. This was impossible under Newtonian classical mechanics however, and Einstein provided a new system which allowed for this.

Importance: Topic creator, Breakthrough, Influence

• Ludwik Silberstein
• Cambridge University Press, 1914

Description: This pioneering textbook drew together the now well-known developments of H.A.Lorentz, A. Einstein, and H. Minkowski. It uses concepts developed in the then- current textbooks (e.g. Gibbs: Vector Analysis and Bonola: Non-Euclidean Geometry) to provide entry into mathematical physics including a vector-based introduction to quaternions and a primer on matrix notation for linear transformations of 4-vectors. The ten chapters are composed of 4 on kinematics, 3 on quaternion methods, and 3 on electromagnetism. The second edition published in 1924 extended relativity into gravitation theory with tensor methods, but was superceded by Eddington's text. The book has a conversational style and embellished with appropriate footnotes. While the mathematics is generally well adapted to the text, there is an erroneous expression given for the quaternionic representation of Lorentz transformations. The expression should have the form of an inner automorphism but Silberstein inexplicably uses the expression Q[ ]Q , failing to supply one of the Q's with a − 1 exponent. The actual technique in geometric arithmetic comes about with inversive ring geometry applied to biquaternions. Importance: influence

• Albert Einstein
• Annalen der Physik. , 1916
• The Foundation of the General Theory of Relativity

Importance: Topic creator, Breakthrough, Influence

• Arthur Stanley Eddington
• Cambridge University Press, 1923, 1924

Description: This textbook is a tour-de-force of tensor calculus, developed in Chapter II. By page 83 he has deduced the Schwarzschild metric for the domain of events around an isolated massive particle. By page 92 he has explained the advance of the perihelion of the planets, the deflection of light, and displacement of Fraunhofer lines. Electromagnetism is relegated to Chapter VI (pp. 170-195), and later (p. 223) The bifurcation of geometry and electrodynamics. This text, with its ambitious development of pseudo-Riemannian geometry for gravitational theory, set an austere standard with relativity enthusiasts. Gone is any mention of quaternions or hyperbolic geometry since tensor calculus subsumes them. Thus for learning the mechanics of modern relativity this text still serves, but for motivation and context of the special theory, Silberstein is better.

Importance: influence

• Max Planck
• Annalen der Physik, vol. 4, p. 553 ff (1901).
• On the Law of Distribution of Energy in the Normal Spectrum

Description: In physics, the intensity spectrum of electromagnetic radiation from a black body at temperature T is given by the Planck's law of black body radiation:

${\displaystyle I(\nu )d\nu d\Omega ={\frac {2h\nu ^{3}}{c^{2}}}{\frac {1}{\exp \left({\frac {h\nu }{kT}}\right)-1}}d\nu d\Omega }$

where:

ν is the frequency

I(ν) is the amount of energy per unit time per unit surface per unit solid angle emitted in the frequency range between ν and ν+δν [W m^-2 Hz^-1 sr^-1];

h is Planck's constant,:

c is the speed of light and

k is Boltzmann's constant.

Max Planck originally produced this law in 1900 (published in 1901) in an attempt to interpolate between the Rayleigh-Jeans law (which worked at long wavelengths) and Wien's law (which worked at short wavelengths). He found that the above function fit the data for all wavelengths remarkably well.

This paper is considered to be the beginning of quantum theory.

Importance: Topic creator, Breakthrough, Influence

• Benjamin Thompson, Count Rumford (1798). "An Experimental Enquiry Concerning the Source of the Heat which is Excited by Friction". Philosophical Transaction of the Royal Society: 102.

Description: Observations of the generation of heat during the boring of cannons led Rumford to reject the caloric theory and to contend that heat was a form of motion.

Importance: Influence

• Gibbs, J. Willard (1875–1878). On the Equilibrium of Heterogeneous Substances. Connecticut Acad. Sci.{{cite book}}: CS1 maint: date format (link) Reprinted in
  • Gibbs, J. Willard (1993). The Scientific Papers of J. Willard Gibbs (Vol. 1). Ox Bow Press. ISBN 0918024773. {{cite book}}: Unknown parameter |month= ignored (help)
  • Gibbs, J. Willard (1994). The Scientific Papers of J. Willard Gibbs (Vol. 2). Ox Bow Press. ISBN 188198706X. {{cite book}}: Unknown parameter |month= ignored (help)

Description: Between 1876 and 1878 Gibbs wrote a series of papers collectively entitled "On the Equilibrium of Heterogeneous Substances", considered one of the greatest achievements in physical science in the 19th century and the foundation of the science of physical chemistry. In these papers Gibbs applied thermodynamics to the interpretation of physicochemical phenomena and showed the explanation and interrelationship of what had been known only as isolated, inexplicable facts. Gibbs' papers on heterogeneous equilibria included:

• Some chemical potential concepts
• Some free energy concepts
• A Gibbsian ensemble ideal (basis of the statistical mechanics field)
• A phase rule

Importance:

See also list of notable textbooks in statistical mechanics.

• Einstein, Albert (1905). "Über die von der molekularkinetischen Theorie der Wärme geforderte Bewegung von in ruhenden Flüssigkeiten suspendierten Teilchen (On the Motion—Required by the Molecular Kinetic Theory of Heat—of Small Particles Suspended in a Stationary Liquid)". Ann. Phys. 17 (549).

Description: In this publication Einstein covered his study of Brownian motion, and provided empirical evidence for the existence of atoms.

Importance:

• Leo P. Kadanoff
• Physica 2, p. 263 (1966).

Description: Introduces the real space view on the renormalization group, and explains using this concept some relations between the scaling exponents of the Ising model.

Importance: Topic creator, breakthrough, influence

• Kenneth Wilson
• Rev. Mod. Phys. 47, 4, p. 773-840 (1974)

Description: Application of the renormalization group to the solution of the Kondo problem. The author was awarded the Nobel Prize in 1982 because of this work.

Importance: Breakthrough, influence

• James Clerk Maxwell
• Maxwell, James Clerk, "A Dynamical Theory of the Electromagnetic Field". 1865.

Description: "A Dynamical Theory of the Electromagnetic Field" was the third of James Clerk Maxwell's papers concerned with electromagnetism. The concept of displacement current was introduced, so that it became possible to derive equations of electromagnetic wave. It was the first paper in which Maxwell's equations appeared.

Importance: Topic creator, breakthrough, influence

• Osbourne Reynolds
• Philosophical Transactions, vol. 174, (1883).

Description: Introduces the dimensionless Reynolds number, investigating the critical Reynolds number for transition from laminar to turbulent flow.

• A.N. Kolmogorov
• Dokl. Akad. Nauk. SSSR 30, p. 4 (1941). Reprinted in Proc. Roy. Soc. A 434, p. 9 (1991).

Description: Introduces the only quantitative theory on turbulence which has survived the test of time.

Importance: Breakthrough, Influence

• A.S. Monin, A.M. Yaglom
• The MIT press (1971). First edition in Russian by Nauka (1965).

Description: The most important review text on turbulence.

Importance: Relevant textbook.

• Edward Lorenz
• Journal of Atmospheric Sciences, vol. 20, p. 130-148 (1963).

Description: A finite system of deterministic nonlinear ordinary differential equations is introduced to represent forced dissipative hydrodynamic flow, simulating simple phenomena in the real atmosphere. All of the solutions are found to be unstable, and most of them nonperiodic, thus forcing to reevaluate the feasibility of long-term weather prediction. In this paper the Lorenz attractor is presented for the first time, and gave the first hint of what is now known as butterfly effect.

Importance: Topic creator, Breakthrough

• Richard P. Feynman
• Physical Review, vol. 76, 6, p. 769 (1949).

Description: Introduction of the Feynman diagrams approach to quantum electrodynamics.

Importance: Topic creator, Breakthrough, Influence

• E.W. Kolb, M.S. Turner
• Addison-Wesley, 1990.

Description: The most important reference textbook on cosmology, discussing both observational and theoretical issues.

Importance: Relevant textbook.

• J. Bardeen, L. N. Cooper, and J. R. Schrieffer
• Phys. Rev. 108 (5), 1175 (1957).

Description: The BCS theory of usual (not high T_c) superconductivity, relating the interaction of electrons and the phonons of a lattice. The authors were awarded with the Nobel prize.

Importance: Breakthrough, Influence

• Published by Optical Society of America:
  • Applied Optics ((journal home)
  • Optics Express ((journal home)
  • Optics Letters ((journal home)

See Also:List of scientific journals - Optics

• Irving Langmuir
• Vol.3: Thermonic Phenomenon: papers from 1916-1937
• Vol.4: Electrical Discharges: papers from 1923-1931

These two volumes from Nobel Prize winning scientist Irving Langmuir, include his early published papers resulting from his experiments with ionized gases (ie. plasma). The books summarise many of the basic properties of plasmas. Langmuir coined the word plamsa in about 1928.

Importance: Influence

• Hannes Alfvén & Carl-Gunne Fälthammar

Hannes Alfvén won the Nobel Prize for his development of magnetohydrodynamics (MHD) the science that models plasma as fluids. This book lays down the ground work, but also shows that MHD may be inadequate for low-density plasmas such as space plasmas.

Importance: Topic creator, Breakthrough, Influence

• Ising's thesis proving the non-existence of phase transitions in the 1-dimensional Ising model.
• 1946 - Peierls' contour argument proving the existence of phase transitions in higher dimensional Ising models.
• 1976 - Fröhlich, Spencer, and Simon's paper proving the existence of phase transitions of continuous symmetry models in at least 3 dimensions.^[1]

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Lloyd, S., 2000, Ultimate physical limits of computation, Nature, 406:1047-1054.

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