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Plenary 1: M Anderson
Citation preview
Manipulating and observing individual atoms
The team: Alicia V. Carpentier, Tzahi Grünzweig, Andrew Hilliard, Yin Fung, and Matt McGovern
Collaborator:Professor Thad G Walker University of Wisconsin
Outline
• Historical Background
• Motivation
• Experimental Apparatus
• Imaging and counting of individual atoms in a microscopic volume
• Isolating individual atoms
• Conclusions
History of Atoms
• Introduced by early Indian and Greek philosophers• Picked up by chemists in 17’th and 18’th centuries• Rutherford/Bohr:
• Scanning Tunneling Microscopy
• Individual Ions
“The present state of atomic theory is characterized by the fact that we not only believe the existence of atoms to be proved beyond a doubt, but also we even believe that we have an intimate knowledge of the constituents of the individual atoms.”
Motivation
• Direct investigations of the quantum world: the dream of scientists for the past century
• Quantum information processing → Ultra fast computers of the future
• Atomic scale engineering: the ultimate limit of small scale engineering
What is the problem with neutral atoms?
• They are very small
They are hard to “see”
They move around at high speeds
• They are electrically neutral
They are hard to hold on to
They are difficult to separate
How to stop atoms
Radiation Pressure
LASER Cooling
Optical Tweezers
Optical Dipole Force
Our experiments
In Reality
Problems with counting atoms using flourecense imaging
• Many photons need to be scattered
• Radiation pressure blows atoms away
• Light assisted collisions cause rapid loss at high densities
Light assisted collisions (photo-chemistry)
Cooling with blue detuned light
Image of single atom
Counting Atoms
None 1 Atom 2 Atoms
M. McGovern, Andrew Hilliard, T. Grünzweig, and M. F. A., Opt. Lett., 36, 1041, 2011.
Preparing individual atoms
At each site, atoms undergo pairwise light-assisted collisions, which can either significantly increase their kinetic energy, or cause them to form a molecule. Either way, both atoms are lost more quickly than we can observe, so that sites that are initially occupied by an even number of atoms become empty and sites that are initially odd-occupied end up with a single atom
Individual Collisions
+ + =
+ + = +
Efficient Preparation
83%
T. Grünzweig, A. Hilliard, M. McGovern, M. F. A., Nature Physics 6, 951-954, 2010.
What is missing?
Detuning
Multi-level structure
Figure: Thad Walker
Conclusions• You CAN see a single atom in a microscope. • We can count several atoms in a microscopic
volume• Light assisted collisions can lead to only one
atom being lost• Investigating individual events reveal information
not available from ensemble average measurements
• We (and visitors) can (almost) deterministically prepare a single atom in an optical micro-trap
Acknowledgements
• NZ-FRST Contract No. NERF-UOOX0703
• UORG
• Professor Thad G Walker University of Wisconsin
• The team: Tzahi Grünzweig, Andrew Hilliard, Yin Fung, Alicia V. Carpentier, and Matt McGovern
Power
Power and Detuning
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