Camelia Prodan
Education
Ph.D.; University of Houston; ; 2003
B.S.; University of Bucharest; ; 1997
B.S.; University of Bucharest; ; 1997
Past Courses
PHYS 103A: GENERAL PHYSICS LAB
PHYS 111: PHYSICS I
PHYS 114: INTRO TO DATA REDUCTION W/APPL
PHYS 121: PHYSICS II
PHYS 350: BIOPHYSICS
PHYS 430: CLASSICAL MECHANICS I
PHYS 792: PRE-DOCTORAL RESEARCH
PHYS 111: PHYSICS I
PHYS 114: INTRO TO DATA REDUCTION W/APPL
PHYS 121: PHYSICS II
PHYS 350: BIOPHYSICS
PHYS 430: CLASSICAL MECHANICS I
PHYS 792: PRE-DOCTORAL RESEARCH
Journal Article
Cheng, Wenting, & Prodan, Emil, & Prodan, Camelia Revealing the Boundary Weyl Physics of the Four-Dimensional Hall Effect via Phason Engineering in Metamaterials. Physical Review Applied, 16(4),
Cheng, Wenting, & Prodan, Emil, & Prodan, Camelia Revealing the Boundary Weyl Physics of the Four-Dimensional Hall Effect via Phason Engineering in Metamaterials. Physical Review Applied, 16(4),
Ruzzene, Massimo, & Prodan, Emil, & Prodan, Camelia (2021). Dynamics of elastic hyperbolic lattices. Extreme Mechanics Letters, 49, 101491.
Cheng, Wenting, & Prodan, Emil, & Prodan, Camelia (2020). Experimental Demonstration of Dynamic Topological Pumping across Incommensurate Bilayered Acoustic Metamaterials. Physical Review Letters, 125(22),
Qian, Kai, & Zhu, Linghua, & Ahn, Keun Hyuk, & Prodan, Camelia (2020). Observation of flat frequency bands at open edges and antiphase boundary seams in topological mechanical metamaterials . Phys Rev Lett, 125, 225501.
Cheng, Wenting, & Prodan, Emil, & Prodan, Camelia Revealing the Boundary Weyl Physics of the Four-Dimensional Hall Effect via Phason Engineering in Metamaterials. Physical Review Applied, 16(4),
Ruzzene, Massimo, & Prodan, Emil, & Prodan, Camelia (2021). Dynamics of elastic hyperbolic lattices. Extreme Mechanics Letters, 49, 101491.
Cheng, Wenting, & Prodan, Emil, & Prodan, Camelia (2020). Experimental Demonstration of Dynamic Topological Pumping across Incommensurate Bilayered Acoustic Metamaterials. Physical Review Letters, 125(22),
Qian, Kai, & Zhu, Linghua, & Ahn, Keun Hyuk, & Prodan, Camelia (2020). Observation of flat frequency bands at open edges and antiphase boundary seams in topological mechanical metamaterials . Phys Rev Lett, 125, 225501.
SHOW MORE
Ni, Xiang, & Chen, Kai, & Weiner, Matthew, & Apigo, David, & Prodan, Camelia, & Alù, Andrea, & Prodan, Emil, & Khanikaev, Alexander (2019). Observation of Hofstadter butterfly and topological edge states in reconfigurable quasi-periodic acoustic crystals. Communications Physics, 2(1),
Apigo, David, & Cheng, Wenting, & Dobiszewski, Kyle, & Prodan, Emil, & Prodan, Camelia (2019). Observation of Topological Edge Modes in a Quasiperiodic Acoustic Waveguide. Physical Review Letters, 122(9),
Apigo, David, & Qian, Kai, & Prodan, Camelia, & Prodan, Emil (2018). Topological edge modes by smart patterning. Physical Review Materials, 2(12),
Qian, Kai, & Apigo, David, & Prodan, Camelia, & Barlas, Yafis, & Prodan, Emil (2018). Topology of the valley-Chern effect. Physical Review B, 98(15),
Prodan, Camelia (2018). Mapping the dispersion of water wave channels. Scientific Reports, 8(1), 3324.
Prodan, Camelia, & PRODAN, EMIL, & Dobiszewski, KYLE, & kanwal, ALOKIK, & palmieri, john Dynamical Majorana edge modes in a broad class of topological mechanical systems. NATURE COMMUNICATIONS,
Bot, Corina, & Prodan, Camelia (2010). Quantifying the membrane potential during E. coli growth stages . Biophysical Chemistry, 146(2-3), 133-137.
Prodan, Emil, & Prodan, Camelia (2009). Topological phonon modes and their role in dynamic instability of microtubules . Physical Review Letters , 103(24), 248101.
Bot, Corina, & Prodan, Camelia (2009). Probing the membrane potential of living cells by dielectric spectroscopy . European Biophysics Journal , 38(8), 1049-1059.
Prodan, Camelia, & Bot, Corina (2009). Correcting the polarization effect in very low frequency dielectric spectroscopy . Journal of Physics D: Applied Physics , 42(17), 10 pages.
Apigo, David, & Cheng, Wenting, & Dobiszewski, Kyle, & Prodan, Emil, & Prodan, Camelia (2019). Observation of Topological Edge Modes in a Quasiperiodic Acoustic Waveguide. Physical Review Letters, 122(9),
Apigo, David, & Qian, Kai, & Prodan, Camelia, & Prodan, Emil (2018). Topological edge modes by smart patterning. Physical Review Materials, 2(12),
Qian, Kai, & Apigo, David, & Prodan, Camelia, & Barlas, Yafis, & Prodan, Emil (2018). Topology of the valley-Chern effect. Physical Review B, 98(15),
Prodan, Camelia (2018). Mapping the dispersion of water wave channels. Scientific Reports, 8(1), 3324.
Prodan, Camelia, & PRODAN, EMIL, & Dobiszewski, KYLE, & kanwal, ALOKIK, & palmieri, john Dynamical Majorana edge modes in a broad class of topological mechanical systems. NATURE COMMUNICATIONS,
Bot, Corina, & Prodan, Camelia (2010). Quantifying the membrane potential during E. coli growth stages . Biophysical Chemistry, 146(2-3), 133-137.
Prodan, Emil, & Prodan, Camelia (2009). Topological phonon modes and their role in dynamic instability of microtubules . Physical Review Letters , 103(24), 248101.
Bot, Corina, & Prodan, Camelia (2009). Probing the membrane potential of living cells by dielectric spectroscopy . European Biophysics Journal , 38(8), 1049-1059.
Prodan, Camelia, & Bot, Corina (2009). Correcting the polarization effect in very low frequency dielectric spectroscopy . Journal of Physics D: Applied Physics , 42(17), 10 pages.
COLLAPSE
Conference Abstract
Observation of Phase Controllable Majorana-like Bound States in Metamaterial-based Kitaev Chain Analogues
Bulletin of the American Physical Society, March 2022
Bulletin of the American Physical Society, March 2022