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CDT External Partner Day

This event focuses on research techniques in superconductivity and magnetism, including ultra-high magnetic fields, skin depth, magnetometry, applied pressure, heat capacity, electrical transport, muon spectroscopy, elastic and inelastic neutron scattering, low-dimensional magnetism, and more. The event will also showcase the experimental facilities for real-time x-ray Laue, susceptibility, heat capacity, transport, ultra-high magnetic fields, muon spectroscopy, and neutron scattering. For more details, visit go.warwick.ac.uk/supermag.

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CDT External Partner Day

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  1. CDT External Partner Day Superconductivity and Magnetism Group Monday 13th May 2019 / Senate House

  2. synthesis of polycrystalline and single crystals samples (GB) GeethaBalakrishnan (GB) Paul Goddard (PAG) Martin Lees (MRL) Oleg Petrenko (OAP) Superconductivity and Magnetism: Research Techniques ultra-high magnetic fields (PAG, OAP) skin depth (PAG) ac and dc magnetometry applied pressure (PAG, MRL) heat capacity, electrical transport muon spectroscopy (MRL, PAG) elastic and inelastic neutron scattering (OAP, PAG)

  3. low-dimensional magnetism (PAG) Unconventional field-induced gap in an S = 1/2 chiral staggered chain J. Lui, PAG, et al. Phys. Rev. Lett. 122, 057207 (2019). single crystal growth (GB, OAP) Fermi surface in the absence of a Fermi liquid in the Kondo insulator SmB6 M. Hartstein,GB, et al. Nature Phys. 14, 166 (2018). frustrated magnetic materials - borides and oxides (OAP, GB, MRL) Research Interests Calculating the magnetic anisotropy of hidden order in spin-liquid Gd3Ga5O12 J. A. M. Paddison,OAP, et al. Science 350, 179 (2015). skyrmions (GB, MRL) Magnetic phases of skyrmion-hosting GaV4S8-ySey K. J. A. Franke, GB, et al. Phys. Rev. B98, 054428 (2018). unconventional superconductivity (MRL, PAG, GB) permanent magnetism (MRL, GB) Calculating the magnetic anisotropy of rare-earth transition-metal ferrimagnets C. E. Patrick, MRL, GB, et al. Phys. Rev. Lett. 120, 097202 (2018). Unconventional superconductivity in La7Ir3 J. A. T. Barker, MRL, GB, et al. Phys. Rev. Lett. 115, 267001 (2015).

  4. floating zone technique (optical furnaces T > 3000 ̊C) arc melting, Czochralski, Bridgman, and CVT box and tube furnaces, (gas and vacuum, T to 1800 ̊C) Superconductivity and Magnetism: Experimental Facilities real time x-ray Laue ac and dc susceptibility (0 to 9 T, 500 mK to 800 K) heat capacity (0 to 9 T, 50 mK to 400 K) transport - ac & dc ρ, S, Hall, (0 to 17 T, 60 mK to 400 K) ultra-high magnetic fields (NHFML, EMFL) muon spectroscopy (ISIS and PSI) and neutron scattering (ISIS and ILL) For more details see: go.warwick.ac.uk/supermag

  5. floating zone technique (optical furnaces T > 3000 ̊C) arc melting, Czochralski, Bridgman, and CVT box and tube furnaces, (gas and vacuum, T to 1800 ̊C) Superconductivity and Magnetism: Experimental Facilities real time x-ray Laue ac and dc susceptibility (0 to 9 T, 500 mK to 800 K) heat capacity (0 to 9 T, 50 mK to 400 K) transport - ac & dc ρ, S, Hall, (0 to 17 T, 60 mK to 400 K) ultra-high magnetic fields (NHFML, EMFL) muon spectroscopy (ISIS and PSI) and neutron scattering (ISIS and ILL) For more details see: go.warwick.ac.uk/supermag

  6. floating zone technique (optical furnaces T > 3000 ̊C) arc melting, Czochralski, Bridgman, and CVT box and tube furnaces, (gas and vacuum, T to 1800 ̊C) Superconductivity and Magnetism: Experimental Facilities real time x-ray Laue ac and dc susceptibility (0 to 9 T, 500 mK to 800 K) heat capacity (0 to 9 T, 50 mK to 400 K) transport - ac & dc ρ, S, Hall, (0 to 17 T, 60 mK to 400 K) ultra-high magnetic fields (NHFML and EMFL) muon spectroscopy (ISIS and PSI) and neutron scattering (ISIS and ILL) For more details see: go.warwick.ac.uk/supermag

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