Sean R. Garner

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Sean Garner at PARC in 2020 Sean Garner.jpg
Sean Garner at PARC in 2020

Sean R. Garner is a physicist currently working on a diverse suite of projects for Palo Alto Research Center (PARC), in San Francisco, CA. Garner received his BA, Mathematics and BS, Physics from University of California, Santa Cruz in 1999, and completed his PhD in physics in 2005 at Cornell University. His thesis was titled "Force-Gradient Detection of Nuclear Magnetic Resonance", and Prof. John A. Marohn was his Doctoral Advisor. He then spent 3 years as a Postdoctoral Fellow at Harvard University, School of Engineering and Applied Sciences researching ultra-slow and stopped light in Bose-Einstein Condensates with Prof. Lene Vestergaard Hau. [1] Garner was the second author on the groundbreaking paper “Coherent control of optical information with matter wave dynamics,” which appeared on the cover of Nature, and detailed the first experimental verification "that a slow light pulse can be stopped and stored in one Bose–Einstein condensate and subsequently revived from a totally different condensate, 160 micrometer away; information is transferred through conversion of the optical pulse into a travelling matter wave." [2]

Contents

Career

After completing his post-doctoral work, Garner moved to California, to take up the position of Area Manager of PARC San Francisco Research Division in 2009. [3] This allowed him to undertake further work in photovoltaics, sustainable engineering and other technologies designed to innovate PARC products to be "environmentally friendly". PARC currently conducts research into "clean technology", user interface design, sensemaking, ubiquitous computing and context-aware systems, large-area electronics, and model-based control and optimization in embedded, intelligent systems. [4] Garner is currently managing the Energy Systems group in the Hardware Systems Laboratory, and has a focus on CleanTech, [5] of which PARC is a major sponsor. Garner's current work is focussed on advanced cooling technologies for next-generation air conditioning and refrigeration; atmospheric CO2 capture for renewable, infrastructure-compatible liquid fuels; and enhanced geothermal systems. [3] He has presented many papers at conferences and will be discussing PARC's SENSOR: (Smart Embedded Network of Sensors with Optical Readout) at the ARPA-E Energy Innovation Summit. [6]

Publications

PARC Publications

Related Research Articles

<span class="mw-page-title-main">Bose–Einstein condensate</span> State of matter

In condensed matter physics, a Bose–Einstein condensate (BEC) is a state of matter that is typically formed when a gas of bosons at very low densities is cooled to temperatures very close to absolute zero. Under such conditions, a large fraction of bosons occupy the lowest quantum state, at which microscopic quantum mechanical phenomena, particularly wavefunction interference, become apparent macroscopically.

<span class="mw-page-title-main">The Rowland Institute at Harvard</span>

The Rowland Institute at Harvard, formerly the Rowland Institute for Science, was founded by Edwin H. Land as a nonprofit, privately endowed basic research organization in 1980. The institute merged with Harvard University on July 1, 2002. The Rowland Institute is dedicated to experimental science across a wide range of disciplines. Research subjects at the institute includes chemistry, physics and biology, and focus on interdisciplinary work and the development of new experimental tools. It is located on the Charles River near Kendall Square in Cambridge, Massachusetts, and is a few miles away from the main campus of Harvard.

<span class="mw-page-title-main">Supersolid</span> State of matter

In condensed matter physics, a supersolid is a spatially ordered material with superfluid properties. In the case of helium-4, it has been conjectured since the 1960s that it might be possible to create a supersolid. Starting from 2017, a definitive proof for the existence of this state was provided by several experiments using atomic Bose–Einstein condensates. The general conditions required for supersolidity to emerge in a certain substance are a topic of ongoing research.

<span class="mw-page-title-main">Deborah S. Jin</span> American physicist

Deborah Shiu-lan Jin was an American physicist and fellow with the National Institute of Standards and Technology (NIST); Professor Adjunct, Department of Physics at the University of Colorado; and a fellow of the JILA, a NIST joint laboratory with the University of Colorado.

Quantum optics is a branch of atomic, molecular, and optical physics dealing with how individual quanta of light, known as photons, interact with atoms and molecules. It includes the study of the particle-like properties of photons. Photons have been used to test many of the counter-intuitive predictions of quantum mechanics, such as entanglement and teleportation, and are a useful resource for quantum information processing.

<span class="mw-page-title-main">Wolfgang Ketterle</span> German physicist

Wolfgang Ketterle is a German physicist and professor of physics at the Massachusetts Institute of Technology (MIT). His research has focused on experiments that trap and cool atoms to temperatures close to absolute zero, and he led one of the first groups to realize Bose–Einstein condensation in these systems in 1995. For this achievement, as well as early fundamental studies of condensates, he was awarded the Nobel Prize in Physics in 2001, together with Eric Allin Cornell and Carl Wieman.

<span class="mw-page-title-main">Electromagnetically induced transparency</span>

Electromagnetically induced transparency (EIT) is a coherent optical nonlinearity which renders a medium transparent within a narrow spectral range around an absorption line. Extreme dispersion is also created within this transparency "window" which leads to "slow light", described below. It is in essence a quantum interference effect that permits the propagation of light through an otherwise opaque atomic medium.

<span class="mw-page-title-main">Lene Hau</span> Danish physicist and educator (born 1959)

Lene Vestergaard Hau is a Danish physicist and educator. She is the Mallinckrodt Professor of Physics and of Applied Physics at Harvard University.

An atom laser is a coherent state of propagating atoms. They are created out of a Bose–Einstein condensate of atoms that are output coupled using various techniques. Much like an optical laser, an atom laser is a coherent beam that behaves like a wave. There has been some argument that the term "atom laser" is misleading. Indeed, "laser" stands for light amplification by stimulated emission of radiation which is not particularly related to the physical object called an atom laser, and perhaps describes more accurately the Bose–Einstein condensate (BEC). The terminology most widely used in the community today is to distinguish between the BEC, typically obtained by evaporation in a conservative trap, from the atom laser itself, which is a propagating atomic wave obtained by extraction from a previously realized BEC. Some ongoing experimental research tries to obtain directly an atom laser from a "hot" beam of atoms without making a trapped BEC first.

Slow light is the propagation of an optical pulse or other modulation of an optical carrier at a very low group velocity. Slow light occurs when a propagating pulse is substantially slowed by the interaction with the medium in which the propagation takes place.

In experimental physics, a magnetic trap is an apparatus which uses a magnetic field gradient to trap neutral particles with magnetic moments. Although such traps have been employed for many purposes in physics research, they are best known as the last stage in cooling atoms to achieve Bose–Einstein condensation. The magnetic trap was first proposed by David E. Pritchard.

Atomtronics is an emerging type of computing consisting of matter-wave circuits which coherently guide propagating ultra-cold atoms. The systems typically include components analogous to those found in electronic or optical systems, such as beam splitters and transistors. Applications range from studies of fundamental physics to the development of practical devices.

<span class="mw-page-title-main">Superfluidity</span> Fluid which flows without losing kinetic energy

Superfluidity is the characteristic property of a fluid with zero viscosity which therefore flows without any loss of kinetic energy. When stirred, a superfluid forms vortices that continue to rotate indefinitely. Superfluidity occurs in two isotopes of helium when they are liquefied by cooling to cryogenic temperatures. It is also a property of various other exotic states of matter theorized to exist in astrophysics, high-energy physics, and theories of quantum gravity. The theory of superfluidity was developed by Soviet theoretical physicists Lev Landau and Isaak Khalatnikov.

<span class="mw-page-title-main">Stephen E. Harris</span> American physicist (born 1936)

Stephen Ernest Harris is an American physicist known for his contributions to electromagnetically induced transparency (EIT), modulation of single photons, and x-ray emission.

Jene A. Golovchenko was an American physicist. He was born in 1946, and received his PhD in physics in 1972, from Rensselaer Polytechnic Institute. He completed three sets of postdoctoral studies at Aarhus University and spent several years in industry as a Distinguished Member of the Technical Staff at Bell Laboratories in Murray Hill, NJ. His initial interests were in condensed matter physics, nuclear physics, and materials science.

Naomi Shauna Ginsberg, is an electrical engineer, physicist, and scientist. She is currently an associate professor of chemistry at the University of California, Berkeley.

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Zachary John Dutton is an American physicist who has worked on research centred mainly around cold atomic gases, EIT, low light level nonlinear optics, quantum memories, and coherent optical. Dutton graduated from Lindsay High School in Lindsay CA, and was awarded a BSc in Physics from UC Berkeley in 1996. He was awarded his PhD in theoretical physics at Harvard University in 2000. His doctoral advisor was Prof.Lene Hau for his thesis entitled "Ultra-slow, stopped, and compressed light in Bose–Einstein condensates" He worked on a number of papers with Hau and Cyrus Behroozi, being amongst the first group to stop light completely. He undertook postdoctoral work at NIST–Gaithersburg with Dr. Charles Clark, prior to becoming a staff physicist at the Naval Research Lab in Washington. He conducted research centred mainly around cold atomic gases, EIT, low light level nonlinear optics, quantum memories, and coherent optical storage.

Bose–Einstein condensation can occur in quasiparticles, particles that are effective descriptions of collective excitations in materials. Some have integer spins and can be expected to obey Bose–Einstein statistics like traditional particles. Conditions for condensation of various quasiparticles have been predicted and observed. The topic continues to be an active field of study.

The I. I. Rabi Prize in Atomic, Molecular, and Optical Physics is given by the American Physical Society to recognize outstanding work by mid-career researchers in the field of atomic, molecular, and optical physics. The award was endowed in 1989 in honor of the physicist I. I. Rabi and has been awarded biannually since 1991.

References

  1. "Marohn Group Alumni".
  2. 1 2 Ginsberg, Naomi S.; Garner, Sean R.; Hau, Lene Vestergaard (2007). "Coherent control of optical information with matter wave dynamics" (PDF). Nature. 445 (7128): 623–626. doi:10.1038/nature05493. PMID   17287804. S2CID   4324343.
  3. 1 2 "Sean Garner - PARC, a Xerox company".
  4. PARC (company)#PARC today
  5. "Home The Cleantech Open".
  6. ARPA-E empowers America’s energy researchers
  7. Zhang, Rui; Garner, Sean R.; Hau, Lene Vestergaard (2009). "Creation of Long-Term Coherent Optical Memory via Controlled Nonlinear Interactions in Bose-Einstein Condensates". Physical Review Letters. 103 (23): 233602. doi:10.1103/PhysRevLett.103.233602. PMID   20366149. S2CID   14321216.
  8. Force-gradient detected nuclear magnetic resonance
  9. "An all-digital cantilever controller for MRFM and scanned probe microscopy using a combined DSP/FPGA design".