Artikel dengan mandat akses publik - Jesse A RodríguezPelajari lebih lanjut
Tidak tersedia di mana pun: 2
Inverse design of optical switch based on bilevel optimization inspired by meta-learning
B Lou, JA Rodriguez, B Wang, M Cappelli, S Fan
ACS photonics 10 (6), 1806-1812, 2023
Mandat: US Department of Defense
Electromagnetic scattering from a magnetized plasma discharge tube
HM Bernety, L Houriez, JA Rodríguez, B Wang, MA Cappelli
2022 IEEE International Symposium on Antennas and Propagation and USNC-URSI …, 2022
Mandat: US Department of Defense
Tersedia di suatu tempat: 11
Inverse design of plasma metamaterial devices for optical computing
JA Rodríguez, AI Abdalla, B Wang, B Lou, S Fan, MA Cappelli
Physical Review Applied 16 (1), 014023, 2021
Mandat: US Department of Energy, US Department of Defense
3D woodpile structure tunable plasma photonic crystal
B Wang, JA Rodríguez, MA Cappelli
Plasma Sources Science and Technology 28 (2), 02LT01, 2019
Mandat: US Department of Defense
Tunable guided resonance in twisted bilayer photonic crystal
B Lou, B Wang, JA Rodríguez, M Cappelli, S Fan
Science Advances 8 (48), eadd4339, 2022
Mandat: US Department of Defense
Reconfigurable plasma-dielectric hybrid photonic crystal as a platform for electromagnetic wave manipulation and computing
B Wang, JA Rodríguez, O Miller, MA Cappelli
Physics of Plasmas 28 (4), 2021
Mandat: US Department of Energy, US Department of Defense
Experimental study of electromagnetic wave scattering from a gyrotropic gaseous plasma column
LS Houriez, H Mehrpour Bernety, JA Rodríguez, B Wang, MA Cappelli
Applied Physics Letters 120 (22), 2022
Mandat: US Department of Energy, US Department of Defense
Dual-polarization Dirac cones in a simple 2D square lattice photonic crystal
JA Rodríguez, B Wang, MA Cappelli
Optics Letters 45 (9), 2486-2489, 2020
Mandat: US Department of Energy, US Department of Defense
OpenEM–Electromagnetic field mapping robot for microwave and RF measurements
B Wang, R Sud, M Leung, M Yang, JA Rodriguez, R Lee, M Cappelli
HardwareX 5, e00062, 2019
Mandat: US Department of Energy, US Department of Defense
Inverse design and experimental realization of plasma metamaterials
JA Rodríguez, MA Cappelli
Phys. Rev. Applied 20 (4), 044017, 2023
Mandat: US Department of Defense
Inverse design of plasma metamaterial devices with realistic elements
JA Rodríguez, MA Cappelli
Journal of Physics D: Applied Physics 55 (46), 465203, 2022
Mandat: US Department of Energy, US Department of Defense
A tunable microwave circulator based on a magnetized plasma as an active gyrotropic element
H Mehrpour Bernety, LS Houriez, JA Rodríguez, B Wang, MA Cappelli
Physics of Plasmas 29 (11), 2022
Mandat: US Department of Defense
A characterization of plasma properties of a heterogeneous magnetized low pressure discharge column
H Mehrpour Bernety, LS Houriez, JA Rodríguez, B Wang, MA Cappelli
AIP Advances 12 (11), 2022
Mandat: US Department of Energy, US Department of Defense
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