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Split Magnet and Optics Program

Split Magnet and Optics Program. Scott Bole. Scott Gundlach. Jim O’Reilly. Jack Toth. Magnet Science and Technology. Steve McGill. Dmitry Smirnov. FTIR Scientist. DC Fields. Wonderfully Complex Magnet. “Wheel”. Split Florida-Helix Technology. Speakers Steve McGill

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Split Magnet and Optics Program

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  1. Split Magnet and Optics Program Scott Bole Scott Gundlach Jim O’Reilly JackToth Magnet Science and Technology SteveMcGill DmitrySmirnov FTIR Scientist DC Fields

  2. Wonderfully Complex Magnet “Wheel” Split Florida-Helix Technology

  3. Speakers Steve McGill Janice Musfeldt JunichiroKono Steven Cundiff Gregory Scholes AronPinczuk GirshBlumberg KresimirRupnik Matt Sfeir Dmitry Smirnov

  4. New Experimental Capabilities • Raman Spectroscopy • Doing with fibers, but limited in sensitivity and geometries • Split Helix gives large angles • Carbon and semiconductor based nanostructures (graphene, quantum wells,…), phase transitions, HTS, quantum spin systems… • THz-Time Domain Spectroscopy • generate low power broadband short pulses • uses FFT to recover both amplitude and phase information from interaction with sample • ac conductivity of superconductors in high fields, cyclotron resonances… • Optical 2D Fourier Transform Spectroscopy and 4-wave Mixing • sensitive interferometery that combines 3 or more beams of light • cutting edge techniques, impossible without the Split-Helix • probes excitonic systems and their dynamics • Improving existing methods: • Photoluminescence • Infrared magneto optics (FTIR…) • EPR/ESR Split magnet enables the ability to do “micro- spectroscopy”, imaging, etc. with many techniques X-ray opportunities FEL opportunities

  5. Shopping List • U-shaped non-magnetic optical table around magnet (150 k$) • Optical windows, custom vacuum hardware… (200 k$) • Dewar/cryosystemmounted to optical table (350 k$) • Vibration isolation between dewar and magnet (100 k$) • Narrow band Krypton laser for Raman Spectroscopy (100 k$) • Time correlated photon counter (100 k$) • Micropositioners & rotators, high B/low T (400 k$) • Optics, detectors, etc (400 k$) • New Bruker FTIR spectrometer with microscope (250 k$) • New, small footprint one-box amplifier ultrafast laser system (1 M$) • Custom made ultra low frequency Raman Scattering spectrometer (including custom microscope) (1 M$)

  6. Personnel • Technician – being hired • 3 Postdocs – optics, FTIR, micro-Raman/optics • Grad Students • Senior Faculty Member?

  7. Installation into Cell 5 Open wall to Optics Cell (3), extend ceiling, 100 k$

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