Kavli Institute at Cornell Summer School in MRFM
The Kavli Institute at Cornell hosted a Summer School in Magnetic Resonance Force Microscopy, June 21-24, 2006, to identify the experimental
and theoretical breakthroughs that will be required to enable magnetic resonance force microscopy to achieve three-dimensional
imaging of single molecules.
View the schedule.
View the attendees.
Abstracts are posted below; talks are being posted as they are received. A white paper summarizing results presented at the summer school is currently being drafted.
Abstracts and Talks: Tutorials
Abstracts and talks are keyed to the following list of tutorial faculty.
Lee Harrell, U.S. Military Academy
When Do Measurements Cause Noise? Single-Photon Interferometric Detection of Cantilever Motion: A Case Study in Quantum Measurement Theory (abstract)
John Marohn, Cornell University
Signal to Noise: The Minimum Detectable Force Concept (abstract, talk)
Beat Meier, Eidgenössische Technische Hochschule, Hönggerberg
Solid-state NMR: A Tutorial and Review (abstract)
John Sidles, University of Washington
Single-Nuclear-Spin Quantum Microscopy: Completing the Science and Technology Stack (abstract, talk)
Abstracts and Talks: Invited Speakers
Abstracts and talks are keyed to the following list of invited speakers.
Raffi Budakian, Department of Physics, University of Illinois at Urbana-Champaign
Ultra-Sensitive Cantilever Displacement Detection Using SQUIDS (abstract)
Paul Cruickshank, Physics and Astronomy, University of Saint Andrews
Instrumental Aspects of Force Detected ESR at 94 GHz (abstract)
Christian Degen, Eidgenössische Technische Hochschule, Hönggerberg
Nuclear Magnetic Resonance Spectroscopy and Cross Polarization Observed by Force Detection
(abstract, talk)
Chris Hammel, Department of Physics, The Ohio State University
Ferromagnetic Resonance Imaging with the Magnetic Resonance Force Microscope (abstract)
Jon Jacky, Department of Mechanical Engineering, University of Washington
Using a Field Programmable Gate Array for MRFM Cantilever Control (abstract, talk)
Olivier Klein, Service de Physique de l'Etat Condense, Commissariat l'Energie Atomique (CEA)
Magnetic Resonance Force Microscopy Applied to Ferromagnetic Materials (abstract, talk)
Michal Lipson, Department of Electrical and Computer Engineering, Cornell University
Nanophotonic Waveguides for Confining, Filtering, Switching, and Doing Biosensing with Light
John Mamin, IBM Almaden Research Center
What Will It Really Take to Get to Single Nuclear Spin (abstract)
John Marohn, Department of Chemistry and Chemical Biology, Cornell University
Fourier Encoding of Spin Locations via Nanomagnet Shuttling and then Detecting Magnetization Using Force Gradients (abstract, talk)
Beat Meier, Eidgenössische Technische Hochschule, Hönggerberg
Solid-state NMR (abstract)
Simon Rast, Department of Physics and Astronomy, University of Basel
MRFM under Ultra High Vacuum Conditions (abstract)
Michael Roukes, Condensed Matter Physics, California Institute of Technology
Zeptonewton, HF/VHF Force Detection via NEMS: Progress & Prospects (abstract)
Dan Rugar, IBM Almaden Research Center
Nuclear Spin MRFM: Progress, Challenges and Prospects (abstract, talk)
Keith Schwab, Department of Physics, Cornell University
Direct Detection of Small Numbers of Nuclear Spins (abstract, talk)
John Sidles, Department of Orthopaedics and Sports Medicine, University of Washington
Federative Aspects of MRFM: Science, Technology, People, Resources, and Sponsor Missions (talk)
Kent Thurber, ARL/SEDD, U.S. Army Research Laboratory, NIH
Optical Pumping for Polarization Enhanced MRFM (abstract, talk)
Dan Weitekamp, A.A. Noyes Laboratory of Chemical Physics, California Institute of Technology
Sample on Board: Torsional Polarization and Detection of Nuclear Magnetic Resonance at Nanoscale (abstract)
Jörg Wrachtrup, Physikalisches Institut, University of Stuttgart
Optical Detection of Magnetic Resonance of Single Electron and Nuclear Spins (abstract, talk)
Yohsuke Yoshinari, Japan Electron Optics Laboratory, Tokyo
Three Dimensional Imaging by Magnetic Resonance Force Microscopy (abstract, talk)
Abstracts: Contributed Posters
Abstracts are keyed to the following list of contributed posters.
Palash Banerjee, Department of Physics, The Ohio State University
High Sensitivity Magnetic Resonance Force Microscopy (abstract)
Mark Butler, A.A. Noyes Laboratory of Chemical Physics, Caltech
Sample on Board: Torsional Polarization and Detection of Nuclear Magnetic Resonance at Nanoscale (abstract)
H.-J. Chia, University of Texas at Austin
Experiments Using Force-Detected Nuclear Magnetism (abstract)
Dick de Roover, SC Solutions, Inc.
An All-Digital Cantilever Contoller for MRFM and Scanned Probe Microscopy using a a Combined DSP/FPGA Design (abstract)
Kin Chung Fong, Department of Physics, The Ohio State University
A Novel Spin Manipulation Protocol for Field Gradient Measurement and Sensitive Slice Scanning (abstract)
Hsi-Sheng Goan, Department of Physics, National Taiwan University
Theory of Feedback Control for Single Spin Detection by MRFM (abstract)
Lee Harrell, Department of Physics, U.S. Military Academy
Quantum Limits to Force Sensitivity of a Mechanical Resonator Monitored by an Optical Interferometer (abstract)
Steven Hickman, Department of Chemistry and Chemical Biology, Cornell University
Batch Nanofabrication of Ultrasensitive Cantilevers with Overhanging Nanomagnet Tips (abstract, talk)
Jongjoo Kim, Department of Physics, The Ohio State University
Magnetic Resonance Force Microscopy Investigations of a Continuous Ferromagnetic Thin Film (abstract)
Paul Knijn, Dept. of Physical Chemistry, Solid State NMR, Radboud University
MRFM pf Aluminum Gallium Arsenide Thin Films (abstract)
Inhee Lee, Department of Physics, The Ohio State University
Three-dimensional Imaging using Magnetic Resonance Force Microscopy (abstract)
Yuri Obukhov, Department of Physics, The Ohio State University
A New Modulation Protocol and NMR Force Microscopy on Calcium Fluoride (abstract)
Charles Paulson, Department of Electrical and Computer Engineering, University of Wisconsin
Multichannel High Frequency Magnetic Moment Detection with Loop Probe Cantilevers (abstract)
Boyan Penkov, School of Applied and Engineering Physics, Cornell University
Fabrication of Nanomechanical Tunnel Sensors (abstract)
Martino Poggio, IBM, Almaden
Nuclear Magnetic Resonance Force Microscopy with 90-nm Resolution (abstract)
Shesha Shayee Raghunathan, Department of Electrical Engineering Systems, University of Southern California
MRFM Based Single Spin Measurement with Spin Noise (abstract)
Raviv Raich, Department of Electrical Engineering and Computer Science, University of Michigan
Sparse Image Reconstruction (abstract)
Kent Thurber, ARL/SEDD, U.S. Army Research Laboratory
Optical Pumping for Polarization Enhanced MRFM (abstract)
Michael Ting, Department of Electrical Engineering and Computer Science, University of Michigan
Finding Dust in Space: Localizing Atoms from Noisy Projections (abstract, talk)
Vladimir Tsifrinovich, Department of Physics, Polytechnic University
OSCAR Frequency Shift as a Function of the Spin Location (abstract)
Organizing Chairs and Co-Sponsors:
John Marohn, Cornell University
Raffi Budakian, Univ. of Illinois, Urbana-Champaign
Cornell NanoScale Facility (CNF)
Cornell Center for Materials Research (CCMR)
Center for Nanoscale Systems (CNS)
IBM
Kodak
New York State Office of Science, Technology and Academic Research (NYSTAR)
Contact
Kavli Institute at Cornell for Nanoscale Science
222 Day Hall
Ithaca, NY 14853
(607) 254-4906
Fax: (607) 255-9030
lab14@cornell.edu
Electron microscope image of nanomagnet overhanging a ledge. John Marohn.
Sunset over Seneca Lake, June 23, 2006. View more photos.
The Kavli Foundation advances science for the benefit of humanity and promotes increased public understanding and support for scientists and their work.