PUBLICATIONS

GOOGLE SCHOLAR PROFILE

https://scholar.google.com/citations?user=hNoVRHIAAAAJ&hl=en

1. A. Paul, A. Volk, M. Hokmabadi, E. Rigo, K. Sarveswaran, V. Kurz, L.  Almonte-Garcia, H. Kermani, P. Vaity, G. Timp, ” Modular Assembly of Metamaterials Using Light Gradients”, Accepted , Adv. Mater., June 2024.
2. M. P. Hokmabadi, A. Schumer, D. N. Christodoulides, and M. Khajavikhan, “Non-Hermitian Ring Laser Gyroscopes with Enhanced Sagnac Sensitivities” Nature 576, 70–74 (2019).
3. M. P. Hokmabadi, N. S. Nye, R. El-Ganainy, D. N. Christodoulides, and M. Khajavikhan, “Supersymmetric Laser Arrays,” , Science 363, 623–626, (2019).
4. E. Rigo, Z. Dong, J. H. Park, E. Kennedy, M. Hokmabadi, L. Almonte-Garcia, L. Ding, N. Aluru and G. Timp, “Measurements of the Size and Correlations between Ions using an Electrolytic Point Contact”, Nat. Commun. 10, 2382 (2019).
5. W. E. Hayenga, M. Parto, J. Ren, F. O. Wu, M. P. Hokmabadi, C. Wolff, R. El-ganainy, N. A. Motensen, D. N. Christodoulides, M. Khjavikhan, “Direct Generation of Tunable Orbital Angular Momentum Beams in Microring Lasers with Broadband Exceptional Points” ACS Photonics, 6, 8 1895-1901 (2019).
6. J. Ren, Y. GN Liu, M. Parto, W. E. Hayenga, M. P. Hokmabadi, D. N. Christodoulides, and M. Khajavikhan. “Unidirectional light emission in PT-symmetric microring lasers.” Optics Express 26, 27153-27160, (2018).
7. E. Kennedy^*, M. Hokmabadi^*, Z. Dong, M. Kim, E. M. Nelson, and G. Timp, “Method for Dynamically Detecting Secretions from Single Cells Using a Nanopore.” Nano Lett. 18, 4263-4272, 2018. *Contributed Equally
8. Z. Dong, E. Kennedy, M. Hokmabadi, and G. Timp, “Discriminating residue substitutions in a single protein molecule using a sub-nanopore”, ACS Nano 11, 5440–5452, 2017.
9. E. Kennedy, et al. “Gene Expression in Electron-Beam-Irradiated Bacteria in Reply to “Live Cell Electron Microscopy Is Probably Impossible”.” ACS nano 11 3-7, 2017. ACKNOWLEDGMENTS “This work was supported by an SBIR Phase II, 5R44EB008589- 04 award from the NIH, the Walther Cancer Foundation, and the Keough−Hesburgh professorship. We gratefully acknowledge the technical assistance of Dr. Mohammad Hokmabadi in the viability tests. Dr. Damiano is the chief technology officer and a cofounder of Protochips.”
10. M. P. Hokmabadi, A. Tareki, E. Rivera, P. Kung, R. G. Lindquist, and S. M. Kim, “Investigation of tunable terahertz metamaterial perfect absorber with anisotropic dielectric liquid crystal.”, AIP Advances 7, 015102, 2017.
11. J. H. Kim, M. P. Hokmabadi, S. Balci, E. Rivera, D. S. Wilbert P. Kung, and S. M .Kim, “Investigation of Robust Flexible Conformal THz Perfect Metamaterial Absorber.” Appl. Phys. A. 122:362, 2016.
12. M. P. Hokmabadi, E. Philip, E. Rivera, P. Kung, and S. M .Kim, “Plasmon-Induced Transparency by Hybridizing Concentric-Twisted Double Split Ring Resonators.” Nature, Scientific Reports 5, 15735, 2015.
13. M. P. Hokmabadi, J. H. Kim, E. Rivera, P. Kung,S. M .Kim, “Impact of Substrate and Bright Resonances on Group Velocity in Metamaterial without Dark Resonator.” Nature, Scientific Reports 5, 14373, 2015.
14. M. P. Hokmabadi, M. Zhu, S. M .Kim, P. Kung, “Comprehensive study of terahertz metamaterial absorber by applying a hybrid approach on its circuit analogue.” Optical Materials Express 5, 8, 1772-1783, 2015.
15. D. S. Wilbert, M. P. Hokmabadi, P. Kung, S. M. Kim, “Spectroscopic Characteristics of Three Dimensional Split-Ring Resonator Arrays at Terahertz Frequencies.” Journal of Nanoscience and Nanotechnology 15, 3, 2289-2293, 2015.
16. M. P. Hokmabadi, D. S. Wilbert,P. Kung, S. M. Kim, “Polarization-Dependent, Frequency-Selective THz Stereometamaterial Perfect Absorber.” Physical Review Applied 1, 4, 044003, 2014.
17. D.S. Wilbert,M. P. Hokmabadi, P. Kung, S. M. Kim, “Equivalent-Circuit Interpretation of the Polarization Insensitive Performance of THz Metamaterial Absorbers.”, IEEE Transactions on Terahertz Science and Technology 3, 6, 846-850, 2013.
18. M. P. Hokmabadi, D. S. Wilbert, P. Kung, S. M. Kim,”Design and analysis of perfect terahertz metamaterial absorber by a novel dynamic circuit model.” Optics Express 21, 14, 16455-16465, 2013.
19. M. P. Hokmabadi, David S. Wilbert, Patrick Kung, S. M. Kim, “Terahertz metamaterial absorbers.”Terahertz Science and Technology 6, 1, 2013.
20. M. P. Hokmabadi and A. Rostami, “Novel TMM for analyzing evanescent waves and optimized subwavelength imaging in a multilayer structure.”International Journal for Light and Electron Optics (Optik) 123, 2, 2012.
21. Ali Rostami and M. P. Hokmabadi, “Main and third harmonic Goos-Hanchen shift analysis at the interface between LHM and RHM.” Journal of Optoelectronics and Advanced Materials – Rapid Communications (OAM-RC) 5, 4, 2011.

• M. P. Hokmabadi, A. Schumer , D. N. Christodoulides, M. Khajavikhan, “Enhanced Sagnac Sensitivity Near Exceptional Points in Ring Laser Gyroscopes”, upcoming Optical Sensing and Precision Metrology, OE305, SPIE P.W., San Francisco 2025 (invited)
• A. Paul, A. Volk, M. Hokmabadi, E. Rigo, H. Kermani, L. A. Garcia, T. Finamore, K. Iwamoto, R. Roeder, G. Timp, “Modular Assembly of Metamaterial Using Light Gradient Force in Standing Wave Optical Trap”, APS March Meeting 2024
• A. Paul, A. Volk, M. Hokmabadi, E. Rigo, K. Sarveswaran, V. Kurz, L.  Almonte-Garcia, H. Kermani, P. Vaity, G. Timp, “Assembling metamaterials using light gradient forces in a standing wave optical trap “, In Optical Trapping and Optical Micromanipulation XX (p. PC1264917) SPIE 2023
• M. Kanskar, Z. Chen, T. Prunty, E. Martin, L. Bao, M. DeFranza, M. Hokmabadi, N. Biekert, and S. Zhang, “High efficiency low SWaP 793-nm diode lasers for pumping Tm fiber amplifiers” In Laser Technology for Defense and Security XVIII (p. PC1251502) SPIE 2023
• M. P. Hokmabadi, A. Schumer, D. N. Christodoulides, and M. Khajavikhan, “Non-Hermitian Ring Laser Gyroscopes with and Enhanced Sagnac Sensitivity” SPIE OPTO, San Francisco, 2020 (Invited)
• M. Khajavikhan, M. P. Hokmabadi, J. H. Choi. D. Christodoulides, “Topological and Supersymmetric laser arrays”, SPIE OPTO, San Francisco, 2020. (Invited)
• M. Khajavikhan, M. P. Hokmabadi, N. S. Nye, R. El-Ganainy, D. N. Christodoulides, “Supersymmetric Optics and Photonics” , SPIE OPTO, San Francisco 2019. (Invited)
• M. P. Hokmabadi, N. S. Nye, R. El-Ganainy, D. N. Christodoulides, and M. Khajavikhan, “Supersymmetric Laser Arrays,” , CLEO San Jose 2019.
• M. P. Hokmabadi, W. Hayenga, J. Ren, E. S. Cristobal, S. Faryadras, R. El-Ganainy, D. N. Christodoulides, and M. Khajavikhan. “Experimental Realization of Supersymmetric Laser.” In 2018 IEEE Photonics Society Summer Topical Meeting Series (SUM), pp. 65-66. IEEE, 2018.
• E. S. Cristobal, W. E. Hayenga, J. H. Garcia-Gracia, M. P. Hokmabadi, P. LiKamWa, and M. Khajavikhan. “Electrically Pumped Metallic Coaxial Nanolasers.” In CLEO: Science and Innovations, pp. SW4Q-5. Optical Society of America, 2018.
• J. Ren, M. Parto, S. Wittek, M. P. Hokmabadi, D. N. Christodoulides, and M. Khajavikhan. “Unidirectional Light Generation in PT-symmetric Microring Lasers.” In CLEO: QELS_Fundamental Science, pp. FM4E-3. Optical Society of America, 2018.
• M. P. Hokmabadi, S. Faryadras, R. El-Ganainy, D. N. Christodoulides, and M. Khajavikhan. “Single Mode Supersymmetric Laser Array.” In CLEO: QELS_Fundamental Science, pp. FM4E-7. Optical Society of America, 2018.
• J. Ren, G. Harari, A. U. Hassan, W. Chow, M. Soltani, M. P. Hokmabadi, D. Christodoulides, and M. Khajavikhan. “PT-Symmetric Microring Laser Gyroscope.” In CLEO: QELS_Fundamental Science, pp. FM4E-5. Optical Society of America, 2018.
• M. P.  Hokmabadi, A. M. Tareki, E. Rivera, P. Kung, R. Lindquist, and S. M. Kim, “Liquid Crystal Frequency Tunable Terahertz Metamaterial Absorber.”, Conference on Lasers and Electro-Optics (CLEO) San Jose, 2016.
• M. P. Hokmabadi, E. Philip, J. H. Kim, E. Rivera, P. Kung, and S. M. Kim, “Slow Light by Hybridized Double Split Ring Resonators”, Conference on Lasers and Electro-Optics (CLEO) San Jose, 2016.
• M. P. Hokmabadi, S. Balci, J. H. Kim, E. Philip, E. Rivera, M. Zhu, P. Kung, S. M Kim, ” Terahertz metamaterials: Design, implementation, modeling and applications.”, (Invited Talk), SPIE Commercial+ Scientific Sensing and Imaging, Baltimore, 2016.
• M. P. Hokmabadi, E. Philip, E. Rivera, P. Kung, and S. M Kim, “Slowing terahertz wave using thin flexible metamaterials,” Infrared, Millimeter and Terahertz Waves IRMMW-THz Denmark, 2016.
• M. P. Hokmabadi, E. Rivera, J. H. Kim, E. Philip, P. Kung, S. M. Kim, “Slow Light by Hybridized Concentric-Twisted Double Split Ring Resonators and THz Application.”, IRMMW-THz Hong Kong, 2015.
• J. H. Kim, M. P. Hokmabadi, S. Balci, E. Rivera, P. Kung, andS. M. Kim, “Investigation of Robust Flexible Conformal THz Perfect Metamaterial Absorber.” Meta’15, Newyork, 2015. (Awarded)
• M. P. Hokmabadi, M. Zhu, P. Kung, andS. M. Kim, “Polarization Independent THz Metamaterial Absorber and its Electric Circuit Analogous.” Meta’15, Newyork, 2015.
• M. P. Hokmabadi, P. Kung, and S. M. Kim, “Polarization controllable THz stereometamaterial Absorber.” Meta’15, Newyork, 2015.
• M. P. Hokmabadi, P. Kung, and S. M. Kim, “Hybridized Concentric-Twisted DSRRs Leading to Plasmon Induced Transparency,” Meta’15, Newyork, 2015.
• M. P. Hokmabadi, M. S. Heimbeck, D. S. Wilbert, P Kung, H. O. Everitt, and S. M. Kim, “Polarization Controllable THz stereometamaterial absorber.” Infrared, Millimeter and Terahertz Waves IRMMW-THz Tucson, Arizona, 2014.
• M. P. Hokmabadi, D. S Wilbert, P. Kung, S. M. Kim, ” Analysis of terahertz metamaterial perfect absorber by using a novel qausi-static RLC circuit model.”, Infrared, Millimeter and Terahertz Waves IRMMW-THz Mainz, Germany, 2013.
• M. P. Hokmabadi, David S. Wilbert; Patrick Kung; and S. M. Kim “Theoretical and experimental investigation of hybrid broadband terahertz metamaterial absorber”, SPIE Proceedings Vol. 8632, 2013.
• David S. Wilbert, M. P. Hokmabadi, Joshua Martinez, Patrick Kung, and S. M. Kim, “Terahertz metamaterials perfect absorbers for sensing and imaging”, SPIE Proceedings Vol. 8585, 2013.
• S. M. Kim, David S. Wilbert, M. P. Hokmabadi, and Patrick Kung, “Highly efficient, polarization insensitive terahertz metamaterial perfect absorber and imaging”, Laser and Tera-Hertz Science and Technology, THz Metamaterials I (SF2B), ISBN 978-1-55752-960-2, 2012.

• Seongsin M. Kim, M. P. Hokmabadi, “Terahertz spectroscopy of biological molecules” In “Terahertz Biomedical Science and Technology”, J. H. Son ed. CRC press 2014.