internetphysics

quantum physics

1.           A history of Quantum Mechanics, University of St. Andrews

2.         Double slit interference and Aharanov-Bohm effect, Páez

3.         The spectrometer, Bird

4.         Introduction to Quantum Mechanics, University of Florida - Chemistry

5.         Quantum Physics Online, Joffre

6.         Schrödinger’s wave equation, Weisstein

7.         Hydrogen Atom, Weisstein

8.         Quantum waves, Does science contradict scripture?

9.         Schrödinger's Atom –Quantum jumps–, Physics 2000

10.    Eigenstates in a constant potential, Joffre

11.    A traveling probability wave, Cornell

12.    Eigenstates in a step potential, Joffre

13.    Potential Step, Cornell

14.    Particle in a box (in Spanish), Franco

15.    The Particle in a Box, UCI

16.    Infinite Well, Christian

17.    Classical and Quantum Particle in a Box, Christian and Belloni

18.    Potential well (in Spanish), Franco

19.    Energy eigenvalues in a well, Christian

20.    Finite Well, Christian

21.    Eigenstates in a potential well, Joffre

22.    Energy levels in a potential well, Joffre

23.    Superposition of two stationary state, Joffre

24.    Superpositions in Time: Infinite Square Well, Christian and Belloni

25.    The infinitely-deep square well, Sutherland

26.    Wave Packet Explorer, Kansas State university

27.    Heisenberg's (position-momentum) Uncertainty Relation, Sutherland

28.    Influence of the wave packet shape to its time development, Márk

29.    Quantum Tunneling, Kansas State university

30.    Time dependent QM: Two dimensional tunneling, Márk

31.    When Particles Behave Like Waves (in 2-D), Russell

32.    Time dependent QM: Two dimensional hard core potential, Márk

33.    Time dependent QM: Nanotube in 2D, Márk

34.    3D calculation of wave packet tunneling through a supported carbon nanotube, Márk

35.    Wave Function Sketcher, Kansas State University

36.    Interaction With a Potential Barrier, Thomas

37.    Quantum mechanical scattering from a one-dimensional square, Sutherland

38.    Steps and barriers in one dimension, Joffre

39.    Potential Barrier E<V, Christian

40.    Potential Barrier – any energy, Christian

41.    Gaussian packet in a harmonic oscillator, Christian

42.    Electron wave function propagating through a periodic potential, Eurotechnology

43.    Propagation of a gaussian wavepacket, Joffre

44.    Propagation of a non-minimal  wavepacket, Joffre

45.    Quantum Motion, Kansas State University

46.    Beyond the Hydrogen Atom, Physics 2000

47.    David's Whizzy Periodic Table, Physics 2000

48.    Hydrogen Atom Wavefunctions, Páez

49.    Hydrogenic Orbitals, University of Kentucky

50.    Atomic orbitals with n <=10, Manthey

51.    The Atomic Orbital Wave Functions, Bird

52.    Spherical Harmonics "Photographs of simple states of atoms", Humphrey

53.    3-D Interactive Spherical Harmonics, Humphrey

54.    Density Plot of Radial and Polar Wave Functions in Hydrogen Atom, Christian

55.    The probabilistic interpretation of atomic orbitals, Bird

56.    Hydrogen Atom in 3d, Sutherland

57.    Hydrogen Atom in 2d, Sutherland

58.    Hydrogen atom model, SciTech Science Resources

59.    Probability Illustrator, Kansas State university

60.    What is Quantum Physics?, Thinkquest

61.    The Copenhagen Interpretation of Quantum Mechanics, Weisstein

62.    Scanning Tunneling Microscope, Joffre

63.    Atomic Tunneling from an STM/AFM tip: Dissipative Quantum effects from phonons, Louis

64.    Quantum Corrals - Scanning Tunneling Microscopy, IBM Visualization Lab

65.    Schroedinger's Cat, Louis

66.    Macroscopic Quantum Tunneling and Coherence, Louis

67.    Path integrals and wavefunctions, Páez

68.    The Laser, Kiselev

69.    Lasers, Physics 2000

70.    Lasers, Gordon and Aberdeen Universities

71.    Free Electron Laser, Christian

72.    The Micromaser, Varcoe

73.    Bose-Einstein Condensation, Physics 2000

74.    Temperature and Absolute Zero, Physics 2000

75.    BEC - What is it and where did the idea come from?, Physics 2000

76.    How is BEC made?, Physics 2000

77.    Laser Cooling, Physics 2000

78.    Tuning the Laser, Physics 2000

79.    Using the Doppler Shift, Physics 2000

80.     Laser Cooling and Trapping: Optical Molasses, Physics 2000

81.    Magnetic Trapping, Physics 2000

82.    Evaporative Cooling, Physics 2000

83.    What does a Bose-Einstein condensate look like?, Physics 2000

84.    What is Bose-Einstein condensation good for?, Physics 2000

85.    Cesium Fountain Atomic Clock, NIST

86.    A Brief History of Atomic Clocks at NIST, NIST

87.    Primary Atomic Reference Clock in Space (PARCS), NIST

88.    Compact Atomic Clocks, NIST

89.    Conventional Passive Vapor-Cell Microwave Frequency Reference, NIST

90.    Bosenova: Supernova in a Bottle, Physics News

91.    Implosion and explosion of a Bose-Einstein condensate "Bosenova", NIST

92.    2 electrons in a 1-d box, Belloni

93.    Angular Momentum In Classical Mechanics - The Rotation of a Top , Wang

94.    Quantum-mechanical theory of angular Momentum, University of Florida - Chemistry

95.    Addition of Angular Momenta, University of Florida - Chemistry

96.    Angular Momentum In Quantum Mechanics, Wang

97.    Java^TMClebsch-Gordan Coefficient Calculator, Stevenson

98.    ClebschGordan Coefficients, Humphrey

99.    The (2J + 1) Components of Angular Momentum With Quantum Number J, Wang

100.                Combinatorial Computation of Clebsch-Gordan Coefficients, Schertler and Thoma

101.                Electron in Hydrogen - The Coupling of Spin and Orbital Angular Momenta, Wang

102.                Larmor precession, Joffre

103.                Resume of Quantum Mechanics, University of California at San Diego - Physical Chemistry

104.                A Brief Review of Elementary Quantum Chemistry, Georgia Institute of Technology

105.                A history of Quantum Mechanics, University of St. Andrews

106.                Intro to Quantum Mechanics, Stedl