Quantum Mechanics Experiments with Individual Photons
Whitman College, May 28-30, 2018
(Two set-ups available for four participants total)
In this immersion participants will learn to perform advanced undergraduate laboratory experiments that explore modern aspects of quantum mechanics. The laboratories all involve studying the behavior of single photons and correlated photon pairs, and include experiments on "proving" that light contains photons, single-photon interference, and tests of local realism. Additionally, the immersion will contain discussions of the physics behind these experiments, and how they can be integrated with a junior/senior level quantum mechanics course.
The light source for all of the experiments uses a blue diode laser to pump a nonlinear crystal, which produces photon pairs via spontaneous parametric down conversion. The photons are coupled into optical fibers, detected with single photon counting modules, and the photo-count data is processed with an FPGA-based coincidence counting unit. Final data acquisition and analysis is performed on a PC using LabView. Participants will become familiar with all aspects of the apparatus, especially the optical alignment. All equipment necessary to perform these experiments (including laser safety equipment) will be provided. Participants should bring a copy of Quantum Mechanics: Theory and Experiment, by Mark Beck (Oxford Univ. Press, 2012) to the immersion, as the laboratories we will perform are described there. It would also be helpful for participants to have read through the presentation of these laboratories in the text prior to arriving at the immersion, but that is not essential.
· Initial alignment
· Properties of spontaneous parametric down conversion
· "Proving" that light consists of photons: The Grangier experiment
· Alignment of the polarization interferometer
· Single-photon interference
· The quantum eraser
· Alignment of the two-crystal source
· Properties of polarization-entangled photons
· Tests of local realism (Bell-CHSH, Hardy)
During each session there will be time devoted to discussing the theory underpinning the experiments, as well as suggestions for integrating the experiments with a quantum mechanics course. For more information on the experiments, including a recent parts list, please visit http://www.whitman.edu/~beckmk/QM/ . The approximate cost for implementing the experiments is $20,000.
Host and Mentor
Mark Beck obtained his BS and PhD degrees in Optics from the University of Rochester. He was a postdoctoral researcher at the University of Oregon, taught physics at Reed College, and has had visiting appointments at the University of Rochester and the University of Oxford. In 1996 he joined the faculty of the Department of Physics at Whitman College, and is currently the Benjamin Brown Professor of Physics there. His areas of research specialization are quantum optics and quantum measurement. For the past 15 years he has worked on developing new undergraduate quantum mechanics teaching laboratories, as well as developing instrumentation and techniques for making these laboratories accessible to a wide range of institutions. He is the author of Quantum Mechanics: Theory and Experiment (Oxford University Press, 2012), and the recipient of the 2018 Richtmyer Memorial Lecture Award from the AAPT.
Mark Beck, Benjamin Brown Professor of Physics, Whitman College, Department of Physics, 345 Boyer Avenue,
Walla Walla, WA, 99362. Email: firstname.lastname@example.org Telephone:
Please note that the Jonathan F. Reichert Foundation has established a grant program to help purchase apparatus used in Laboratory Immersions. Limitations and exclusions apply, but generally speaking the foundation may support up to 40% of the cost of the required equipment.