Dr. Stephen Remillard

Associate Professor of Physics and Department Chair
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Stephen Remillard oversees the Microwave Lab in Vanderwerf Hall where his research is centered on microwave measurement and microwave induced phenomena. Currently his students are focused on microwave superconductivity, microwave photonic bandgap structures and microwave induced discharges in gases.

Having served on the physics faculties at Grand Valley State University and at Calvin College he came to the Hope College physics department in 2007. Prior to teaching, Stephen worked in private industry, where for several years he served as a senior engineer and director of engineering.

Areas of Expertise

  • Microwave superconductivity
  • Photonic bandgap structures
  • Microwave discharges in gases


  • Ph.D., experimental solid state physics, The College of William and Mary, 1993
  • M.S. physics, The College of William and Mary, 1990
  • B.S. physics and minor in mathematics, Calvin College, 1988


  • National Science Foundation, "RUI: Spatially resolved microwave nonlinearity of superconductors investigated by undergraduates," $181,274 (2015–2018)
    Michigan Space Grant Consortium and Hope College, "Rutherford Backscattering analysis of exotic new functional thin films," $10,000 (2015–2016)
  • Great Lakes Colleges Association, New Directions Initiative, "Building Bridges in Very Small Places: Nano-Experiences in South Korea," $5,500 (2014)
  • National Science Foundation, "RUI: Superconductivity in the Microwave Regime with Undergraduates at Hope College," $165,000 (2012–2016)
  • Jacob E. Nyenhuis Faculty Development Grant, "Developing Plasma Spectroscopy for Hope College’s Plasma Physics Project with Dual Application to Physics Major Retention," $940 (2012)
  • National Science Foundation, "Research Experiences for Undergraduates in Physics at Hope College," $187,317 (2010–2013)
  • National Science Foundation – Major Research Instrumentation (funded through the ARRA of 2009), "MRI-R2: Acquisition of Instrumentation to Determine Provenance of Environmental Samples," (Graham Peaslee, PI; Greg Murray and Steve Remillard, co-PIs), $215,180 (2010–2011)
  • Research Corporation for Science Advancement and Hope College, Cottrell College Science Award, "Nonlinear Electrodynamics of Superconducting Thin Films in Microwave Fields," $56,583 (2009–2011)
  • NASA-Michigan Space Grant Consortium and Hope College, "Microwave Induced Stratospheric Gas Discharge and Ozone Production," (Brian Mork, co-PI) $8,600 (2008–2009)

Conference Presentations

  • "Two Dimensional Intermodulation Distortion Scanning of Superconducting Filter Resonators," American Physical Society March Meeting, 2015
  • "Origins of Nonlinearity in Superconductive Passive Circuits," American Physical Society March Meeting, 2015
  • "Methods of Mapping the Resistive and Inductive Nonlinear Response of Superconducting Microwave Resonators," invited talk HTSHFF (High Temperature Superconductors in High Frequency Fields), Frejus, France, 2014
  • "Hole Concentration Effect on the Microwave Nonlinearity of Tl2Ba2CaCo2O8+/-d Superconducting Thin Films," European Conference on Applied Superconductivity, Genoa, Italy, 2013
  • "Effect of Carrier Doping on Nonlinearity of High Temperature Superconducting Thin Films," American Physical Society March Meeting, 2013

Published Works

  • "A Review of HTS Thick Film Microwave Filter Technology," Journal of Superconductivity and Novel Magnetism, 2006
  • "Spatial correlation of linear and nonlinear electron transport in superconducting microwave resonator: laser scanning microscopy analysis," MSMW-07 Symposium Proceedings, 2007
  • “Effect of LaAlO3 twin-domain topology on local dc and microwave properties of cuprate films," Journal of Applied Physics, 2010
  • "Even and Odd Order Nonlinearity from Superconductive Microstrip Lines," IEEE Trans. on Applied Superconductivity, 2011
  • "Hole Concentration Effect on the Microwave Nonlinearity of Tl2Ba2CaCo2O8+/-d Superconducting Thin Films," Journal of Physics: Conference Series, 2014
  • "Low Temperature Thermopower And Electrical Conductivity In Highly Conductive CuInO2 Thin Films," Journal of Materials Chemistry C, 2014

See more of Stephen's publications in Digital Commons.

Additional information

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Dr. Stephen Remillard

Phone Number616.395.7507

VanderWerf-Room 205 27 Graves Place Holland, MI 49423-3617
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