[1] With M.S. Vallarta. Scattering of cosmic rays by the stars of a galaxy. Phys Rev 55: 340-343.

[2] Forces in molecules, Phys. Rev. 56: 340-343.

[3] The Principle of Least Action in Quantum Mechanics (thesis), Princeton. Ann Arbor: University Microfilms.

[4] With J.A. Wheeler. Interaction with the absorber as the mechanism of radiation. Rev. Mod. Phys. 17: 157-181.

[5] Amplifier response. Edited and declassified work from the Manhattan Project. 15pp. [6] With R.F. Bacher. Introduction to Atomic Energy. Dept. of State Publication 2661 USGPO.

[7] Space-time approach to non-relativistic quantum mechanics. Rev. Mod. Phys. 20: 367- 387.
[8] A relativistic cut-off for classical electrodynamics. Phys. Rev. 74: 939-946.
[9] Relativistic cut-off for quantum electrodynamics. Phys. Rev. 74: 1430-1438.

[10] With J.A. Wheeler. Classical electrodynamics in terms of direct interparticle action. Rev. Mod. Phys. 21: 425-433.
[11] With N. Metropolis and E. Teller. Equations of state of elements based on the generalized Fermi-Thomas theory. Phys. Rev. 75: 1561-1573. [12] The theory of positrons. Phys. Rev. 76: 749-759. [13] Space-time approach to quantum electrodynamics. Phys. Rev. 76: 769-789.

[14] Mathematical formulation of the quantum theory of electromagnetic interaction. Phys. Rev. 80: 440-457.

[15] An operator calculus having application in quantum electrodynamics. Phys. Rev. 84: 108-128.
[16] With Carl W. Helstrom, Malvin A. Ruderman, and William Karzas. High Energy Phenomena and Meson Theories: notes on course at CIT, Jan.-Mar. 1951.
[17] The concept of probability in quantum mechanics, Second Berkeley Symposium on Mathematical Statistics and Probability, 1950, University of California, Berkeley, pp. 553-541.

[18] With Laurie M. Brown. Radiative corrections to Compton scattering. Phys. Rev. 85: 231-244.

[19] The lambda transition in helium. Phys. Rev. 90: 1116-1117.
[20] Atomic theory of the lambda transition in liquid helium. Phys. Rev. 91: 1291-1301.
[21] Atomic theory of liquid helium near absolute zero. Phys. Rev. 91: 1301-1308.
[22] Atomic theory of liquid helium. Proc. Int. Conf. on Theoretical Physics, Kyoto and Tokyo, Japan, pp. 895-901.
[23] With M. Barranger and H.A. Bethe. Relativistic corrections to the Lamb shift. Phys. Rev. 92: 482-501.

[24] Atomic theory of the two-fluid model of liquid helium. Phys. Rev. 94: 262-277.
[25] With G. Speisman. Proton-neutron mass difference. Phys. Rev. 94: 500.
[26] The present situation in fundamental theoretical physics. Academia Brasiliera de Cien-cias 26: 51-59.

[27] Application of quantum mechanics to liquid helium. Progress in Low Temperature Physics, Vol. 1. Amsterdam: North-Holland, pp. 17-53.
[28] Slow electrons in a polar crystal. Phys. Rev. 97: 660-665.
[29] With M. Cohen. The character of the roton state in liquid helium. Prog. Theor. Phys. 14: 261-262.
[30] The value of science. Engineering and Science 19: 13-15 (Dec).
[31] Helium II in rotational flow. Science 121: 622.

[32] With M. Cohen. Energy spectrum of the excitations in liquid helium. Phys. Rev. 102: 1189-1204.
[33] With F. de Hoffmann and R. Serber. Dispersion of the neutron emission in U235-fission. High Energy 3: 64-69.
[34] With J.E. Mercereau. Physical conditions for ferromagnetic resonance, Phys. Rev. 104: 63.
[35] The relation of science and religion. Engineering and Science 19: 20-23 (June).

[36] Superfluidity and superconductivity. Rev. Mod. Phys. 29: 205-212.
[37] The role of science in the world today. Proc. Institute of World Affairs 33: 17-31.
[38] With M. Cohen. Theory of inelastic scattering of cold neutrons from liquid helium. Phys. Rev. 107: 13-24.
[39] With F.L. Vernon, Jr. and R.W. Hellwarth. Geometrical representation of the Schrödinger equation for solving maser problems. J. Appl. Phys. 28: 49-52.
[40] An historic moment in physics. Engineering and Science 20: 17-18.

[41] With M. Gell-Mann. Theory of the Fermi interaction. Phys. Rev. 109: 193-198.
[42] Excitation in liquid helium. Physics 24 (Kammerling Onnes Conference, Leiden), pp. 18-26.

[43] Series of Lectures on the Theory of Fundamental Processes. Pasadena: CIT.

[44] There's plenty of room at the bottom. Engineering and Science 23: 22-36 (Feb.).

[45] The present status of quantum electrodynamics. Extrait des rapports et discussions, Solvay, Institut International de Physique.
[46] Quantum Electrodynamics; a lecture note and reprint volume. New York: W.A. Benjamin. In Frontiers in Physics (German edition, Munich, 1989).
[47] The Theory of Fundamental Processes; a lecture note volume. New York: W.A. Benjamin (Japanese edition, 1992).
[48] There's plenty of room at the bottom. In Miniaturization, ed. Horace D. Gilbert. (See [44].)

[49] With R.W. Hellwarth, C.K. Iddings, and P.M. Platzman. Mobility of slow electrons in a polar crystal. Phys. Rev. 127: 1004-1017.
[50] With R.S. Edgar, S. Klein, I. Lielausis, and CM. Steinberg. Mapping experiments with r mutants of bacteriophage T4D1. Genetics 47: 179-185.
[51] Lectures in Elementary Physics. Pasadena: CIT.
[52] Quantum Electrodynamics, 2nd printing with revisions. (See 1961.)
[53] The Theory of Fundamental Processes. 2nd printing, corrected. (See 1961.)

[54] The problem of teaching physics in Latin America. Engineering and Science 27: 21-30. [55] With F.L. Vernon, Jr. The theory of a general quantum mechanical system interacting with a linear dissipative system. Ann. Phys. 24: 118-173.
[56] With Robert B. Leighton and Matthew Sands. The Feynman Lectures on Physics, Vol. 1. Reading, Massachusetts: Addison-Wesley.
[57] The quantum theory of gravitation. Acta Physica Polonica 24: 697-722.

[58] With Robert B. Leighton and Matthew Sands. The Feynman Lectures on Physics, Vol. 2. Reading, Massachusetts: Addison-Wesley.
[59] The quantum theory of gravitation. In Proc. on Theory of Gravitation. Paris: Gauthier- Villars.
[60] The quantum theory of gravitation. In Proc. on Theory of Gravitation. PWN-Polish Scientific Publisher, pp. 207-208.
[61] With M. Gell-Mann and G. Zweig. Group U(6) x U(6) generated by current components. Phys. Rev. Lett. 13: 678-680.
[62] Lectures on Physics: Exercises. Reading, Massachusetts: Addison-Wesley.

[63] With Robert B. Leighton and Matthew Sands. The Feynman Lectures on Physics, Vol. 3. Reading, Massachusetts: Addison-Wesley.
[64] With Albert R. Hibbs. Quantum Mechanics and Path Integrals. New York: McGraw-Hill.
[65] Consequences of SU(3) symmetry in weak interactions. In Symmetries in Elementary Particle Physics (Ettore Majorana). New York: Academic, pp. 111-174. [66] Present status in strong, electromagnetic and weak interactions. In Symmetries in Elementary Particle Physics (Ettore Majorana). New York: Academic, pp. 366-399 and 400-418.
[67] New textbooks for the "new" mathematics. Engineering and Science 28: 9-15 (Mar.). [68] New textbooks for the "new" mathematics. The California Institute of Technology Quarterly 6: 2-9 (Spring).
[69] The Character of Physical Law. Cambridge: MIT Press. The Messenger Lectures, Cornell University, 1964.

[70] The development of the space-time view of quantum electrodynamics. Science 153: 699-708.
[71] The development of the space-time view of quantum electrodynamics. Physics Today 19 (August), 31-44.
[72] What is and what should be the role of scientific culture in modern society? Supp. al Nuovo Cimento 4: 492-524.
[73] The development of the space-time view of quantum electrodynamics. In Les Prix Nobel 1965, Stockholm: Imprimerie Royale P.A. Norstedt & Soner, pp. 172-191.

[74] Field theory as a guide to the strong interactions. In Proc. 1967 Int. Conf. on Particles and Fields, edited by C.R. Hagen, G. Guralnik, and V.S. Mathur. New York: Interscience.

[75] Very high-energy collisions of hadrons. Phys. Rev. Lett. 23: 1415-1417.
[76] The behavior of hadron collisions at extreme energies. In High Energy Collisions. London: Gordon and Breach, pp. 237-256.
[77] Present status of strong, electromagnetic, and weak interactions. Ceskoslovensky Casopis pro Fysiku A19: 47-59.
[78] With R.B. Leighton and R.E. Vogt. Exercises in Introductory Physics. Reading, Massachusetts: Addison-Wesley.
[79] What is science? The Physics Teacher 9/69: 313-320.
[80] The application of mathematics to mathematics. American Mathematics Monthly 76: 1178-1179.

[81] With S. Pakvasa and S.F. Tuan. Some comments on baryonic states. Phys. Rev. D2: 1267-1270.
[82] With K.K. Thorber. Velocity acquired by an electron in a finite electric field in a polar crystal. Phys. Rev. Bl: 4099-4114. Erratum: Phys. Rev. B4: 674.
[83] Partons. In The Past Decade in Particle Theory. London: Gordon and Breach, pp. 773- 813. Eds. E.C.G. Sudarshan and Y. Ne'eman.

[84] With M. Kislinger and F. Ravndal. Current matrix elements from a relativistic quark model. Phys. Rev. D3: 2706-2732.
[85] Closed loop and tree diagrams, in Magic Without Magic: John Archibald Wheeler, edited by John R. Klauder. New York: W.H. Freeman.
[86] Problems in quantizing the gravitational field and the massless Yang-Mills field. In Magic Without Magic: John Archibald Wheeler, edited by John R. Klauder. New York: W.H. Freeman.
[87] Lectures on Gravitation. Pasadena: CIT.

[88] Statistical Mechanics; a set of lectures. Reading, Massachusetts: W.A. Benjamin.
[89] Photon-Hadron Interactions. Reading, Massachusetts: W.A. Benjamin.
[90] What neutrinos can tell us about partons. In Proc. Neutrino '72 Europhysics Conference, Vol. II. Budapest: OMKD Technoinform, pp. 75-96.
[91] Fisica de Altas Energias: Cursos de Verano 1972. Mexico: COPAA-SEDICT.

[92] Quarks. Fizikai Szemle 23: 1-7.

[93] Take the world from another point of view. Engineering and Science 37: 11-13 (Feb.). [94] Cargo cult science. Engineering and Science 37: 10-13 (June).
[95] Partons. In Proc. 5th Hawaii Topical Conference in Particle Physics. Honolulu: Univ. Press of Hawaii, pp. 1-97.
[96] Structure of the proton. Science 183: 601-610.

[97] Los Alamos from below. Engineering and Science 39: 11-30 (Jan.-Feb.).

[98] With R.D. Field and Geoffrey Fox. Correlations among particles and jets produced with large transverse momenta. Nucl. Phys. B128: 1-65.
[99] With R.D. Field. Quark elastic scattering as a source of high-transverse-momentum mesons. Phys. Rev. D15: 2590-2616.
[100] Correlations in hadron collisions at high transverse momentum. In Orbis Scientiae (Univ. of Miami) and Deeper Pathways in High Energy Physics. New York: Plenum, pp. 461-488.
[101] Quark jets. In Proc. Int. Symp. on Multiparticle Dynamics 8th, Kayserberg, June 1977. Strasbourg.
[102] Gauge theories. In Weak and Electromagnetic Interactions at High Energy. Amsterdam: North-Holland, pp. 121-204.

[103] With R.D. Field and Geoffrey Fox. A quantum-chromodynamic approach for the large-transverse-momentum production of particles and jets. Phys. Rev. D18: 3320-3343.
[104] With R.D. Field. A parameterization of the properties of quark jets. Nucl. Phys. B136: 1-76.

[105] The qualitative behavior of Yang-Mills theory in 2+1 dimensions. Nucl. Phys. B188: 479-512.

[106] Simulating physics with computers. Int. J. Theor. Phys. B2: 6-7.
[107] A qualitative discussion of quantum chromodynamics in 2+1 dimensions. In Proc. Int. Conf. on High Energy Physics, Lisbon, July 9-15, 1981. Geneva: European Physical Society, pp. 660-683.
[108] Partons. In Hawaii Topical Conference in Particle Physics, Vol. I: Selected Lectures. Singapore: World Scientific, pp. 229-424.

[109] With Ralph Leighton. The dignified professor. Engineering and Science 48: 4-10 (Nov.).

[110] Quantum mechanical computers. Opt. News 11: 11-46.
[111] QED: The Strange Theory of Light and Matter. Princeton: Princeton University Press. In Alix A. Mautner Memorial Lectures.
[112] With Ralph Leighton and Edward Hutchings. "Surely You're Joking, Mr. Feynman": Adventures of a Curious Character. New York: W.W. Norton.
[113] The computing machines in the future. Nishina Memorial Lecture, Nishina Foundation and Gakushuin.

[114] With H. Kleinert. Effective classical partition functions. Phys. Rev. A34: 5080-5084.
[115] Quantum mechanical computers. Found. Phys. 16: 507-531. 1987
[116] With S. Weinberg. Elementary Particles and the Laws of Physics: The 1986 Dirac Memorial Lectures. New York: Cambridge University Press.
[117] Mr. Feynman goes to Washington. Engineering and Science 51: 6-22 (Fall).
[118] Was ist Naturwissenschaft? Physik und Didaktik 2: 105-116.
[119] Negative probability. In Quantum Implications: Essays in Honor of David Bohm. London: Routledge and Kegan Paul, pp. 235-248.

[120] Difficulties in applying the variational principle to quantum field theories. In Proc. Int. Workshop on Variational Calculus in Quantum Field Theory, Wangerooge, West Germany, Sept. 1-4, 1987. Singapore: World Scientific. ( Note: These difficulties have meanwhile been overcome by a simple but essential extension of [114]! See here)
[121] With Ralph Leighton. "What Do You Care What Other People Think?": Further Adventures of a Curious Character. New York: W.W. Norton.
[122] An outsider's inside view of the Challenger inquiry. Physics Today 41(2): 26-37.

[123] Feynman Lectures on Gravitation, edited by Brian Hatfield; notes taken by Fernando B. Morinigo and William G. Wagner. Reading, Massachusetts: Addison-Wesley.

[124] Feynman Lectures on Computation, edited by Anthomy J.G. Hey and Robin W. Allen. Reading, Massachusetts: Addison-Wesley.

[125] The Pleasure of Finding Things Out. Reading, Massachusetts: Perseus.