STUDIES IN THE LIQUID-DROP THEORY OF NUCLEAR FISSION
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[1] John R. Taylor,et al. Classical mechanics , 1999, Physics, Structure, and Reality.
[2] F. Tonolini,et al. Statistical analysis of fission widths and fission cross section in U235 (n,f) reaction , 1964 .
[3] F. Tonolini,et al. Statistical properties of U236 scission , 1964 .
[4] R. C. Gatti,et al. Fission Barrier of Thallium-201 , 1964 .
[5] R. Vandenbosch,et al. Relative cross-sections for formation of the shielded isomeric pair 134mCs and 134Cs in medium energy fission , 1964 .
[6] J. Huizenga,et al. Binary Fission Studies of Helium-Ion-Induced Fission of Bi-209, Ra-226, and U-238 , 1964 .
[7] M. M. Hoffman. DIRECTIONAL CORRELATION OF FISSION FRAGMENTS AND PROMPT GAMMA RAYS ASSOCIATED WITH THERMAL NEUTRON FISSION , 1964 .
[8] P. Fong. Kinetic Energy and Prompt Neutron Distributions in Fission , 1963 .
[9] F. Tonolini,et al. Statistical model in fission of U235 induced by thermal neutrons , 1963 .
[10] V. Strutinsky,et al. Symmetrical shapes of equilibrium for a liquid drop model , 1963 .
[11] W. Swiatecki,et al. THE DEFORMATION ENERGY OF A CHARGED DROP. PART V. RESULTS OF ELECTRONIC COMPUTER STUDIES , 1963 .
[12] T. Sikkeland,et al. KINETIC ENERGY RELEASE IN HEAVY- ION-INDUCED FISSION REACTIONS , 1962 .
[13] J. Terrell. Neutron Yields from Individual Fission Fragments , 1962 .
[14] J. Huizenga,et al. KINETIC ENERGY DISTRIBUTIONS OF FRAGMENTS FROM THE FISSION OF Au, Tl, Pb, AND Bi , 1962 .
[15] W. Swiatecki,et al. The deformation energy of a charged drop: IV. Evidence for a discontinuity in the conventional family of saddle point shapes☆ , 1962 .
[16] H. Wegner,et al. ENERGETICS OF CHARGED PARTICLES INDUCED FISSION REACTIONS , 1962 .
[17] H. Wegner,et al. ENERGETICS OF THE CHARGED PARTICLE-INDUCED FISSION OF Ra$sup 226$, Bi$sup 209$, AND Au$sup 19$$sup 7$ , 1962 .
[18] J. R. Grover. Effect of Competition between Gamma-Ray and Particle Emission on Excitation Functions , 1961 .
[19] P. Fong. STATISTICAL THEORY OF NUCLEAR FISSION AND PROMPT NEUTRON DISTRIBUTION , 1961 .
[20] P. Fong. MECHANISM OF FISSION OF HEAVY NUCLEI , 1961 .
[21] P. Fong. NUCLEAR MODELS AND NUCLEAR FISSION , 1961 .
[22] B. C. Carlson. ELLIPSOIDAL DISTRIBUTIONS OF CHARGE OR MASS , 1961 .
[23] J. Meadows,et al. Asymmetric Fission of Bismuth , 1961 .
[24] B. Mottelson,et al. Effect of Nuclear Rotation on the Pairing Correlation , 1960 .
[25] E. M. Lifshitz,et al. Quantum mechanics: Non-relativistic theory, , 1959 .
[26] D. W. Lang,et al. Neutron evaporation and level densities in excited nuclei , 1959 .
[27] J. Terrell. Fission Neutron Spectra and Nuclear Temperatures , 1959 .
[28] R. D. Present,et al. Hydrodynamic Theory of Spontaneous Fission , 1959 .
[29] S. Whetstone,et al. PROMPT NEUTRON EMISSION FROM SPONTANEOUS-FISSION MODES OF Cf$sup 25$$sup 2$ , 1958 .
[30] A. J. W. Cameron. SEMIEMPIRICAL CORRELATION OF FISSION YIELD AND KINETIC ENERGY DISTRIBUTIONS , 1958 .
[31] J. Terrell. Distributions of Fission Neutron Numbers , 1957 .
[32] R. Leachman,et al. Neutron Emission from Fission Modes , 1957 .
[33] W. Swiatecki. Deformation Energy of a Charged Drop. II. Symmetric Saddle Point Shapes , 1956 .
[34] A. M. Friedman,et al. PROMPT GAMMA RAYS ACCOMPANYING THE SPONTANEOUS FISSION OF Cf$sup 25$$sup 2$ , 1956 .
[35] A. Bohr,et al. Study of Nuclear Structure by Electromagnetic Excitation with Accelerated Ions , 1956 .
[36] J. Jackson. a Schematic Model for (p,xn) Cross Sections in Heavy Elements , 1956 .
[37] A. W. Fairhall. Fission of Bismuth with 15- and 22-Mev Deuterons , 1956 .
[38] P. Fong. Statistical Theory of Nuclear Fission: Asymmetric Fission , 1956 .
[39] R. Leachman. Emission of Prompt Neutrons from Fission , 1956 .
[40] S. Gallone,et al. Saddle shapes, threshold energies and fission asymmetry on the liquid drop model , 1955 .
[41] J. Perring,et al. THERMODYNAMIC THEORY OF FISSION , 1955 .
[42] Joseph Kaye. A Table of the First Eleven Repeated Integrals of the Error Function , 1955 .
[43] S. Gallone,et al. On the interpretation of fission asymmetry according to the liquid drop nuclear model , 1955 .
[44] A. Green. COULOMB RADIUS CONSTANT FROM NUCLEAR MASSES , 1954 .
[45] John Archibald Wheeler,et al. NUCLEAR CONSTITUTION AND THE INTERPRETATION OF FISSION PHENOMENA , 1953 .
[46] N. Metropolis,et al. Calculations in the Liquid-Drop Model of Fission , 1947 .
[47] R. D. Present. The liquid-drop model for nuclear fission. , 1946, Nucleonics.
[48] R. D. Present,et al. On the Dynamics of Complex Fission , 1940 .
[49] Niels Bohr,et al. The Mechanism of nuclear fission , 1939 .
[50] LISE MEITNER,et al. Disintegration of Uranium by Neutrons: a New Type of Nuclear Reaction , 1939, Nature.
[51] V. Weisskopf,et al. Statistics and Nuclear Reactionsl , 1937 .
[52] H. B. Dwight,et al. Tables of Integrals and Other Mathematical Data , 1934 .
[53] Glenn T. Seaborg,et al. The nuclear properties of the heavy elements , 1964 .
[54] David L. Anderson,et al. The discovery of nuclear fission , 1964 .
[55] S. Gallone,et al. Asymmetric equilibrium shapes in the liquid drop model , 1957 .
[56] Samuel Glasstone,et al. The Theory Of Rate Processes , 1941 .