Jeffrey A. Hopwood
Affiliations: | Electrical Engineering | Tufts University, Boston |
Area:
Electronics and Electrical EngineeringGoogle:
"Jeffrey Hopwood"Children
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| Kim H, Hopwood J. (2020) Tunable millimeter wave photonic crystal for limiting high power pulses using weakly ionized steady state plasma Journal of Applied Physics. 128: 93302 |
| Kim H, Hopwood J. (2019) Wave Propagation in Composites of Plasma and Metamaterials with Negative Permittivity and Permeability. Scientific Reports. 9: 3024 |
| Fantini L, Dennison S, Kim H, et al. (2019) Plasma reconfigurable metamaterial using a 6.5 GHz dielectric resonator array Journal of Applied Physics. 126: 203301 |
| Kim H, Hopwood J. (2019) Scalable microplasma array for argon metastable lasing medium Journal of Applied Physics. 126: 163301 |
| Kim H, Hopwood J. (2018) Plasma-enhanced metamaterials using microwave radiative power transfer Plasma Sources Science and Technology. 27: 95007 |
| Kim H, Parsons S, Hopwood J. (2018) Spatially adjustable microplasma generation in proto-metamaterials using microwave radiative power transfer Plasma Sources Science and Technology. 27: 15010 |
| Parsons SG, Hopwood J. (2017) Millimeter Wave Plasma Formation Within a 2D Photonic Crystal Ieee Electron Device Letters. 38: 1602-1605 |
| Parsons S, Gregório J, Hopwood J. (2017) Microwave plasma formation within a 2D photonic crystal Plasma Sources Science and Technology. 26: 55002 |
| Gregório J, Parsons S, Hopwood J. (2017) Reconfigurable photonic crystal using self-initiated gas breakdown Plasma Sources Science and Technology. 26 |
| Hoskinson AR, Gregório J, Hopwood J, et al. (2017) Spatially resolved modeling and measurements of metastable argon atoms in argon-helium microplasmas Journal of Applied Physics. 121: 153302 |