Abstract
It is a delightfully unintuitive fact that one can cultivate a faithful analog of electronics using ultracold neutral atoms by substituting chemical potential for electric potential and atom flux for electric current. The term “atomtronics” is meant to invoke a metaphor that brings to mind circuits and circuit elements in which atoms are doing what electrons do in the familiar realm of electronics. One thus pictures atom-based resistors, capacitors, inductors, and even diodes and transistors somehow all mimicking their electronic counterparts. Assuming little familiarity with ultracold matter, this talk will introduce the notion of atomtronics, cover recent theoretical and experimental work and discuss the potential impact of atomtronics for sensor applications. The speaker’s current work centers on the atom analog of the transistor oscillator. When appropriately coupled to a waveguide or antenna, a transistor oscillator emits an electromagnetic wave, the energy of which is carried by photons. In an analogous fashion, the atom oscillator emits a matterwave, the energy of which is carried by atoms. To the extent that it can be made a viable technology, atomtronics can have considerable impact on atom based sensors. For example, inertial sensors for navigation and guidance as well as magnetic field sensors can be made substantially more sensitive for a fixed size than existing atom interferometric systems. More generally his research group has an interest in developing a paradigm for problem solving in quantum signal processing that parallels the power of electronics in solving classical signal processing problems.
About the speaker
Prof Dana Anderson received his PhD from the University of Arizona in 1981. He was faculty of Physics at the California Institute of technology from 1981 to 1984. He joined the University of Colorado at Boulder in 1984, and is currently Glenn L. Murphy Chair in Engineering and Applied Sciences, Professor of Physics and Fellow of the Joint Institute for Laboratory Astrophysics.
Prof Anderson’s researches involved primarily three different areas including real-time holographic systems, optical sensing and precision measurement, and atom optics. His recent pioneering work of atomtronics is starting a paradigm for problem solving in quantum signal processing that parallels the power of electronics in solving classical signal processing problems.
Prof Anderson received numerous awards including the Humboldt Research Award from the Alexander von Humboldt Foundation, the R. W. Wood Prize from the Optical Society of America and the Presidential Young Investigator Award. He is a Fellow of the American Physical Society and the Optical Society of America.
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