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Presentation. AMO Group - Experiment. AMO - Experiment. Experimental AMO Quantum Optics Cavity QED Correlated Photons Francium Spectroscopy Anapole moment measurement at Stony Brook Quantum Information Quantum interconnects Rydberg atoms Ultracold Plasmas Dynamics

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  1. Presentation AMO Group - Experiment Theme Group 1

  2. AMO - Experiment • Experimental AMO • Quantum Optics • Cavity QED • Correlated Photons • Francium Spectroscopy • Anapole moment measurement at Stony Brook • Quantum Information • Quantum interconnects • Rydberg atoms • Ultracold Plasmas • Dynamics • Plasma/Rydberg gas interplay • Quantum degenerate gases • Quantum transport in optical lattices Theme Group 1

  3. Atomic Molecular and Optical Physics • Faculty • William D. Phillips – Distinguished University Professor* • Luis A. Orozco – Professor • Steven L. Rolston – Professor • Visiting Faculty - 2004 • Julio Gea-Banacloche – Professor (U. Arkansas) • Perry Rice – Professor (U. Miami, Ohio) • Trey Porto - Research Scientist (NIST) • Post-Docs • Daniel Freimund (Orozco) • Daniela Manoel (Orozco) • Chad Fertig (Rolston/NIST) • Kevin Teo (Rolston/recently moved to UCSF medical phys.) • 4 UMD Postdocs working full time at NIST (Ryu, McCormick, Vaziri, Tian) * “on leave” Theme Group 1

  4. AMO • Graduate Students • 2 Students (Cold Plasma) • 4 Students (Quantum Optics) • 3 Students (Optical Lattices) • 2 Students (Fr) • 1 Student (quantum info - NIST) • Undergraduates • 2 Students (Rolston) • 1 Student (Orozco) • 2 Students from Mexico (summer-Orozco) • Faculty History • Phillips – Adjunct 1990, Full 2000, Distinguished 2003 • Rolston – Adjunct 1995, Full 2003 • Orozco – Full 2003 Theme Group 1

  5. AMO Physics - Research Program • Cavity QED (Orozco) • Dynamics of entanglement • Quantum Feedback • Anapole moment in Fr (Orozco) • Spectroscopy • PNC Theme Group 1

  6. AMO Physics - Research Program • Ultracold Plasmas (Rolston) • Dynamics of UCPs • Coupled Rydberg/plasma • Rydbergs for Quantum Logic (Rolston) • Blockade phenomena • Conditional Logic gates Theme Group 1

  7. AMO Physics - Research Program • Quantum Transport in Optical Lattices (Rolston) • Controllable disorder • Quantum-classical transition Theme Group 1

  8. AMO Physics - Research Program • Research at NIST (Phillips) • Atom Optics/ BEC • Optical Tweezers • Photoassociation Spectroscopy • Correlated Photons • Quantum Info w/ Neutral Atoms • UMD graduate student (Huckans) • Collaboration with UMD (Rolston) Theme Group 1

  9. AMO - Research Program • Future Directions (Orozco, Rolston, Porto (NIST), Hill (IPST)) • Spin squeezing • Quantum control of entanglement • Quantum Interconnects Theme Group 1

  10. AMO Support Funding (on campus) • Orozco • Cavity QED NSF ~ 154 k$/year • Fr Anapole NSF ~ 144 k$ • Rolston • Cold Plasma NSF ~ 163 k$ • Opt. Lattice NASA ~ 80 k$ • Rolston/Orozco • Quantum interconnects (NSF-ITR) ~ 110 k$ • Quant. info. w/ neutral atoms (NIST/ARDA) ~ 180 k$ (plus ~ 380 k$ for off-campus (NIST)) Theme Group 1

  11. AMO • Collaborations • Francium Collaboration • 2 Physicists • UMD + SUNY Stony Brook • Quantum Information Collaboration - NSA/ARDA • 12 Physicists • NIST + UMD + UNM + UA + Darmsadt + Inst. D’Optique • US/Italy collaboration • 4 Physicists • Univ. of Pisa + UMD • UMD/ Univ. Innsbruck • IPST (Wendell Hill) Theme Group 1

  12. AMO • Awards and Recognition • Phillips • Nobel Prize • APS Fellow • OSA Fellow • Institute of Physics (UK) Fellow • Orozco • APS Fellow • OSA Fellow • Guggenheim Fellow • Institute of Physics (UK) Fellow • Rolston • APS Fellow Theme Group 1

  13. AMO • Limiting Issues • Group is too small. • We need junior faculty. • There is a negotiation for a senior theorist (target of opportunity). • Need to establish the Joint Quantum Institute with NIST. • Encourages Phillips’ involvement • Encourages interaction with Condensed Matter • NIST researchers can be a great LOCAL resource • Space for growth will be problematic. • Already lab and offices are in different buildings. • Need significant presence to compete for quality students. Theme Group 1

  14. Encouraging AMO at UMD • Started Graduate AMO course 2004 • Hope to offer biannually (more frequent than normal) • NIST staff will teach in Fall 2005 • Gave undergraduate AMO special topics course • Started AMO Seminar • Run occasional joint QCI/AMO seminars • Submitted NSF-CCLI proposal to revamp junior optics lab (PHYS375) Theme Group 1

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