Bibliography

1

M. Abramowitz and I. A. Stegun.
Handbook of Mathematical Functions.
Dover, third edition, 1965.

2

A. Aharoni.
Introduction to the Theory of Ferromagnetism.
Oxford University Press, second edition, 2000.

3

G. Audi, O. Bersillon, J. Blachot, and A. H. Wapstra.
The NUBASE evaluation of nuclear and decay properties.
Nuclear Physics A, 729: 3-128, 2003.

4

R. Baierlein.
Thermal Physics.
Cambridge University Press, Cambridge, UK, 1999.

5

C.A. Bertulani.
Nuclear Physics in a Nutshell.
Princeton University Press, 2007.

6

H.A. Bethe.
Intermediate Quantum Mechanics.
W.A. Benjamin, 1964.

7

J.M. Blatt and V.F. Weisskopf.
Theoretical Nuclear Physics.
Wiley/Springer-Verlag, 1952/1979.

8

S.H. Chue.
Thermodynamics : a rigorous postulatory approach.
Wiley, 1977.

9

E.U. Condon and H. Odishaw, editors.
Handbook of Physics.
McGraw-Hill, 1958.

10

E.U. Condon and H. Odishaw, editors.
Handbook of Physics.
McGraw-Hill, 2nd edition, 1967.

11

E.A. Desloge.
Thermal Physics.
Holt, Rinehart and Winston, New York, 1968.

12

A.R. Edmonds.
Angular Momentum in Quantum Mechanics.
Princeton, 1957.

13

J.P. Elliott.
Nuclear symmetries.
In D.H. Wilkinson, editor, Isospin in Nuclear Physics, pages 73-113. Wiley/North Holland, 1969.

14

A.M. Ellis.
Spectroscopic selection rules: The role of photon states.
J. Chem. Educ., 76: 1291-1294, 1999.

15

L.R.B. Elton.
Introductory Nuclear Theory.
W.B. Saunders, 2nd edition, 1966.

16

Hugh Everett, III.
The theory of the universal wave function.
In Bryce S. DeWitt and Neill Graham, editors, The Many-Worlds Interpretation of Quantum Mechanics, pages 3-140. Princeton University Press, 1973.

17

R. P. Feynman.
Statistical Mechanics.
Westview/Perseus, 1998.

18

R. P. Feynman.
QED, the Strange Theory of Light and Matter.
Princeton, expanded edition, 2006.

19

R.P. Feynman.
The Character of Physical Law.
BBC/Penguin, 1965.

20

R.P. Feynman, R.B. Leighton, and M. Sands.
The Feynman Lectures on Physics, volume I.
Addison-Wesley, 1965a.

21

R.P. Feynman, R.B. Leighton, and M. Sands.
The Feynman Lectures on Physics, volume III.
Addison-Wesley, 1965b.

22

N.B. Gove and M.J. Martin.
Log f tables.
Nucl. Data Tables A, 10: 206, 1971.

23

David Griffiths.
Introduction to Elementary Particles.
Wiley-VCH, second edition, 2008.

24

David J. Griffiths.
Introduction to Quantum Mechanics.
Pearson Prentice-Hall, second edition, 2005.

25

B.R. Holstein.
The Van der Waals interaction.
Am. J. Phys., 69: 441-449, 2001.

26

K Huang.
Fundamental Forces of Nature.
World Scientific, 2007.

27

C. Kittel.
Introduction to Solid State Physics.
Wiley, 7th edition, 1996.

28

W. Koch and M. C. Holthausen.
A chemist's guide to density functional theory.
Wiley-VCH, Weinheim, second edition, 2000.

29

K.S. Krane.
Introductory Nuclear Physics.
Wiley, 1988.

30

R. Machleidt.
The nuclear force in the third millennium.
Nucl. Phys. A, 689: 11-22, 2001.
arXiv:nucl-th/0009055v2.

31

A.A. Moszkowski.
Theory of multipole radiation.
In K. Siegbahn, editor, Alpha-, Beta-, and Gamma-Ray Spectroscopy, volume 2, pages 863-886. North Holland, 1965.

32

R. G. Parr and W. Yang.
Density Functional Theory of Atoms and Molecules.
Oxford, New York, 1989.

33

M.E. Peskin and D.V. Schroeder.
An Introduction to Quantum Field Theory.
Westview, 1995.

34

M.A. Preston and R.K. Bhaduri.
Structure of the Nucleus.
Addison-Wesley, 1975.

35

P. Roy Chowdhury and D.N. Basu.
Nuclear matter properties with the re-evaluated coefficients of liquid drop model.
Acta Physica Polonica B, 37: 1833-1846, 2006.

36

A. Schirrmacher.
Experimenting theory: The proofs of Kirchhoff's radiation law before and after Planck.
Historical Studies in the Physical and Biological Sciences, 33: 299-335, 2003.
Freely available online at http://caliber.ucpress.net/toc/hsps/33/2.

37

A. J. M. Schmets and W. Montfrooij.
Teaching superfluidity at the introductory level, 2008.
URL http://arxiv.org/abs/0804.3086.

38

A. Sitenko and V. Tartakovskii.
Theory of Nucleus.
Kluwer, 1997.

39

M.R. Spiegel and J. Liu.
Mathematical Handbook of Formulas and Tables.
Schaum's Outline Series. McGraw-Hill, second edition, 1999.

40

R. L. Sproull.
Modern Physics, a textbook for engineers.
Wiley, first edition, 1956.

41

M. Srednicki.
Quantum Field Theory.
Cambridge University Press, Cambridge, UK, 2007.

42

B. Stech.
Die lebensdauer isomerer kerne.
Z. Naturforschg, 7a: 401-410, 1952.

43

N.J. Stone.
The table of nuclear moments.
Atomic Data and Nuclear Data Tables, 90: 75-176, 2005.
Also available online at bnl.gov, sciencedirect.com.

44

A. Szabo and N. S. Ostlund.
Modern Quantum Chemistry.
Dover, first, revised edition, 1996.

45

D. R. Tilley and J. Tilley.
Superfluidity and Superconductivity.
Institute of Physics Publishing, Bristol and Philadelphia, third edition, 1990.

46

E.K. Warburton and J. Weneser.
The role of isospin in electromagnetic transitions.
In D.H. Wilkinson, editor, Isospin in Nuclear Physics, pages 173-228. Wiley/North Holland, 1969.

47

S. Weinberg.
The Quantum Theory of Fields, volume I: Foundations.
Cambridge, 2010.

48

D.H. Wilkinson.
Historical introduction to isospin.
In D.H. Wilkinson, editor, Isospin in Nuclear Physics, pages 1-13. Wiley/North Holland, 1969.

49

R.B. Wiringa, V.G.J. Stoks, and R. Schiavilla.
An accurate nucleon-nucleon potential with charge-independence breaking.
Phys .Rev. C, 51: 38-51, 1995.
arXiv:nucl-th/9408016v1.

50

A. Yariv.
Theory and Applications of Quantum Mechanics.
Wiley & Sons, 1982.

51

A. Zee.
Quantum Field Theory in a Nutshell.
Princeton University Press, Princeton, NJ, 2003.