Support for Java Applets, including Physlets, has been discontinued by browsers and Oracle. Thus, traditional *Java-based* Physlets are
no longer supported on this website. Please note Open Source Physics (OSP) Java programs continue to run on computers with Java if users
download the jar file.

The OSP team is busy updating and developing simulations using HTML5 + JavaScript.

These simulations run on almost all platforms
including tablets and cellphones. Explore the **Third Edition of Physlets Physics**
or search OSP for JavaScript to find these simulations.

*Physlet*^{®} Quantum Physics 2E

^{®}Quantum Physics 2E

## Bibliography

[1] D. Styer, "Quantum Mechanics: See it Now," AAPT Kissimmee, FL January, 2000 and http://www.oberlin.edu/physics/dstyer/TeachQM/see.html.

[2] D. Styer, "Common Misconceptions Regarding Quantum Mechanics", *Am. J. Phys.* **64**, 31-34 (1996).

[3] R. W. Robinett, *Quantum Mechanics: Classical Results, Modern Systems, and Visualized Examples*, Oxford, New York, 1997.

[4] E. Cataloglu and R. Robinett, "Testing the Development of Student Conceptual and Visualization Understanding in Quantum Mechanics through the Undergraduate Career," *Am. J. Phys.* **70**, 238-251 (2002).

[5] D. Zollman, *et al.*, "Research on Teaching and Learning of Quantum Mechanics", *Papers Presented at the National Association for Research in Science Teaching* (1999).

[6] C. Singh, "Student Understanding of Quantum Mechanics", *Am. J. Phys.* **69**, 885-895 (2001).

[7] R. Muller and H. Wiesner, "Teaching Quantum Mechanics on the Introductory Level", *Am. J. Phys.* **70**, 200-209 (2002).

[8] L. Bao and E. Redish, "Understanding Probabilistic Interpretations of Physical Systems: A Prerequisite to Learning Quantum Physics", *Am. J. Phys.* **70**, 210-217 (2002).

[9] D. Zollman, N. S. Rebello, and K. Hogg, "Quantum Mechanics for Everyone: Hands-on Activities Integrated with Technology", *Am. J. Phys.* **70**, 252-259 (2002).

[10] S. Brandt and H. Dahmen, *The Picture Book of Quantum Mechanics*, Springer-Verlag, New York, 2001.

[11] J. Hiller, I. Johnston, D. Styer, *Quantum Mechanics Simulations, Consortium for Undergraduate Physics Software*, John Wiley and Sons, New York, 1995.

[12] B. Thaller, *Visual Quantum Mechanics*, Springer-Verlag, New York, 2000.

[13] M. Joffre, *Quantum Mechanics *CD-ROM in J. Basdevant and J. Dalibard, *Quantum Mechanics*, Springer-Verlag, Berlin, 2002.

[14] A. Goldberg, H. M. Schey, and J. L. Schwartz, "Computer-generated Motion Pictures of One-dimensional Quantum-mechanical Transmission and Reflection Phenomena," *Am. J. Phys.* **35**, 177-186 (1967).

[15] M. Andrews, "Wave Packets Bouncing Off of Walls," *Am. J. Phys.* **66** 252-254 (1998).

[16] M. A. Doncheski and R. W. Robinett, "Anatomy of a Quantum 'Bounce,' " *Eur. J. Phys.* **20**, 29-37 (1999).

[17] M. Belloni, M. A. Doncheski, and R. W. Robinett, "Exact Results for 'Bouncing' Gaussian Wave Packets," *Phys. Scr.* **71**, 136-140 (2005).

[18] J. J. Sakurai, *Advanced Quantum Mechanics*, Addison-Wesley (1967).

[19] R. E. Scherr, P. S. Shaffer, and S. Vokos, "The Challenge of Changing Deeply Held Student Beliefs about the Relativity of Simultaneity," *Am. J. Phys.* **70**, 1238 (2002).

[20] R. E. Scherr, P. S. Shaffer, and S. Vokos, "Student Understanding of Time in Special Relativity: Simultaneity and Reference Frames," *Phys. Educ. Res., Am. J. Phys. Suppl.* **69**, S24 (2001).

[21] K. Krane, *Modern Physics*, 2nd edition, John Wiley and Sons (1996).

[22] P. A. Tipler and R. A. Llewellyn, *Modern Physics*, W. H. Freeman and Company (1999).

[23] J. R. Taylor, C. H. Zafiratos, and M. A. Dubson, *Modern Physics for Scientists and Engineers*, Prentice Hall (2004).

[24] S. Thornton and A. Rex, *Modern Physics for Scientists and Engineers*, 2nd ed, Brooks/Cole (2002).

[25] W. E. Lamb, Jr. and M. O. Scully, "The Photoelectric Effect without Photons," in *Polarisation, Matierer et Rayonnement*, Presses University de France (1969).

[26] G. Greenstein and A. G. Zajonc, *The Quantum Challenge*, Jones and Bartlett (1997).

[27] J. J. Thorn, M. S. Neel, V. W. Donato, G. S. Bergreen, R. E. Davies, and M. Beck, "Observing the Quantum Behavior of Light in an Undergraduate Laboratory," *Am. J. Phys.* **72** 1210-1219 (2004).

[28] D. F. Styer, *et* *al.*, "Nine Formulations of Quantum Mechanics," *Am. J. Phys.* **70**, 288-297 (2002).

[29] M. Belloni, M. A. Doncheski, and R. W. Robinett, "Zero-curvature solutions of the one-dimensional Schrödinger equation," to appear in *Phys. Scr.* 2005.

[30] L. P. Gilbert, M. Belloni, M. A. Doncheski, and R. W. Robinett, "More on the Asymmetric Infinite Square Well: Energy Eigenstates with Zero Curvature," to appear in *Eur. J. Phys.* 2005.

[31] L. P. Gilbert, M. Belloni, M. A. Doncheski, and R. W. Robinett, "Piecewise Zero-curvature Solutions of the One-Dimensional Schrödinger Equation," in preparation.

[32] R. W. Robinett, "Quantum Wave Packet Revivals," talk given at the 128th AAPT National Meeting, Miami Beach, FL, Jan. 24-28 (2004).

[33] R. Shankar, *Principles of Quantum Mechanics*, Plenum Press (1994).

[34] M. Morrison, *Understanding Quantum Physics: A Users Manual*, Prentice Hall, Upper Saddle River, NJ, 1990.

[35] M. Bowen and J. Coster, "Infinite Square Well: A Common Mistake," *Am. J. Phys.* **49**, 80-81 (1980)

[36] R. C. Sapp, "Ground State of the Particle in a Box," *Am. J. Phys.* **50**, 1152-1153 (1982)

[37] L. Yinji and H. Xianhuai, "A Particle Ground State in the Infinite Square Well," *Am. J. Phys.* **54**, 738 (1986).

[38] C. Dean, "Simple Schrödinger Wave Functions Which Simulate Classical Radiating Systems," *Am. J. Phys. ***27**, 161-163 (1959).

[39] R. W. Robinett, "Quantum Wave Packet Revivals," *Phys. Rep.* **392**, 1-119 (2004).

[40] R. Bluhm, V. A. Kostelecky, and J. Porter, "The Evolution and Revival Structure of Localized Quantum Wave Packets," *Am. J. Phys.* **64**, 944-953 (1996).

[41] I. Sh. Averbukh and N. F. Perelman, "Fractional Revivals: Universality in the Long-term Evolution of Quantum Wave Packets Beyond the Correspondence Principle Dynamics," *Phys. Lett.* **A139**, 449-453 (1989)

[42] D. L. Aronstein and C. R. Stroud, Jr., "Fractional Wave-function Revivals in the Infinite Square Well," *Phys. Rev. A* **55**, 4526-4537 (1997).

[43] R. Liboff, *Introductory Quantum Mechanics*, Addison Wesley (2003).

[44] F. Bloch, *Z. Physik*, **52** (1928).

[45] M. A. Doncheski and R. W. Robinett, "Comparing classical and quantum probability distributions for an asymmetric well", *Eur. J. Phys.* **21**, 217-228 (2000).

[46] A. Bonvalet, J. Nagle, V. Berger, A. Migus, J.-L. Martin, and M. Joffre, "Femtosecond Infrared Emission Resulting from Coherent Charge Oscillations in Quantum Wells," *Phys. Rev. Lett.* **76**, 4392-4395 (1996).

[47] C. Kittel and H. Kroemer, *Thermal Physics*, 2nd ed, W. H. Freeman, 1980.

[48] R. Eisberg and R. Resnick, *Quantum Physics*, Wiley, 1974.