A welcome byproduct of our crystal growth efforts has been our ability to gain valuable additional insights through extensive collaborations with scientists using complementary experimental techniques:

  1. Prof. J. C. Campuzano (U. Illinois and Argonne National Lab) and Prof. J. Fink (Dresden University and IFW, Germany)
    Synchrotron-based dichroic photoemission

  2. Prof. I. R. Fisher (Stanford University)
    Uniaxial strain transport

  3. Prof. N. Gedik (Massachusetts Institute of Technology)
    Laser-based dichroic photoemission spectroscopy

  4. Prof. C. Giannetti (Università Cattolica del Sacro Cuore, Italy) 
    Time-resolved reflectivity

  5. Prof. J. Haase (Univ. Leipzig)

  6. Dr. R. Hackl (Walther Meissner Institute, Garching, Germany), Prof. B. Keimer (Max-Planck Institute, Stuttgart, Germany), Prof. Y. Li (Peking University, China)
    Raman scattering 

  7. Prof. D. Hsieh (Caltech)
    Optical second harmonic generation 

  8. Dr. M.-H. Julien (High Magnetic Field Laboratory, Grenoble, France

  9. Prof. A. Kapitulnik (Stanford University)
    Kerr effect

  10. Prof. W. Mao and Prof. T. H. Geballe (Stanford University)
    High-pressure synchrotron X-ray scattering

  11. Prof. D. van der Marel (Université de Genève)
    Optical spectroscopy

  12. Dr. A. Migliori, Dr. B. Ramshaw and Dr. A. Shekter (National High Magnetic Field Laboratory)
    Resonant ultrasound 

  13. Prof. J. Orenstein (UC Berkeley)
    Nonlinear optical measurements

  14. Prof. M. Požek (University of Zagreb, Croatia)
    Microwave transport measurements 

  15. Dr. C. Proust (LNCMI, Toulouse, France)
    High-field magnetoresistivity, Ultrasound

  16. Prof. R. Prozorov (Iowa State University and Ames National Laboratory)
    Penetration depth measurements 

  17. Prof. Z.-X. Shen (Stanford University)
    Photoemission spectroscopy

  18. Prof. Y. Uemura (Columbia University) and Prof. G. Luke (McMaster University)
    Muon spin relaxation