Arumona Edward Arumona

Ph.D. candidate in Physics at University of Warsaw with over 20 publications

Research Expertise

Materials modeling
DFT calculations
Plasmonics
Nanophotonics
Biotechnology
Biochemistry
Biophysics
Atomic and Molecular Physics, and Optics
Electrical and Electronic Engineering
Electronic, Optical and Magnetic Materials
Instrumentation
Condensed Matter Physics
Nuclear and High Energy Physics
Cognitive Neuroscience
Computer Science Applications
Computer Vision and Pattern Recognition
Hardware and Architecture
Anatomy
Histology
Medical Laboratory Technology
Modeling and Simulation
Algebra and Number Theory
Analysis
Mathematical Physics
Geometry and Topology
Logic
Computer Networks and Communications
Software

About

I am a physicist with a strong background in research and teaching. Presently, I am a PhD candidate in Physics at the University of Warsaw, Poland where I specialized in the field of photonics, nanophotonics, and material science. Prior to my doctoral studies, I completed a Master's degree in Physics from the University of Agriculture in 2018, and a Bachelor's degree in Physics from Benue State University in 2011. I was involved in several projects and published findings in reputable scientific journals. I am a dedicated researcher and educator, always seeking new ways to improve my skills and contribute to the scientific community.

Publications

Plasmonic Micro-Antenna Characteristics Using Gold Grating Embedded in a Panda-Ring Circuit

Plasmonics / Oct 14, 2019

Arumona, A. E., Amiri, I. S., & Yupapin, P. (2019). Plasmonic Micro-Antenna Characteristics Using Gold Grating Embedded in a Panda-Ring Circuit. Plasmonics, 15(1), 279–285. https://doi.org/10.1007/s11468-019-01031-7

Spin-wave generation using MZI embedded plasmonic antennas for quantum communications

Optical and Quantum Electronics / Apr 27, 2020

Garhwal, A., Ray, K., Arumona, A. E., Bharti, G. K., Amiri, I. S., & Yupapin, P. (2020). Spin-wave generation using MZI embedded plasmonic antennas for quantum communications. Optical and Quantum Electronics, 52(5). https://doi.org/10.1007/s11082-020-02368-8

Electron Cloud Spectroscopy Using Micro-Ring Fabry–Perot Sensor Embedded Gold Grating

IEEE Sensors Journal / Sep 15, 2020

Arumona, A. E., Garhwal, A., Youplao, P., Amiri, I. S., Ray, K., Punthawanunt, S., & Yupapin, P. (2020). Electron Cloud Spectroscopy Using Micro-Ring Fabry–Perot Sensor Embedded Gold Grating. IEEE Sensors Journal, 20(18), 10564–10571. https://doi.org/10.1109/jsen.2020.2994240

High-density quantum bits generation using microring plasmonic antenna

Optical and Quantum Electronics / Apr 01, 2020

Arumona, A. E., Amiri, I. S., Punthawanunt, S., & Yupapin, P. (2020). High-density quantum bits generation using microring plasmonic antenna. Optical and Quantum Electronics, 52(4). https://doi.org/10.1007/s11082-020-02323-7

Microplasma Source Circuit Using Microring Space–Time Distortion Control

IEEE Transactions on Plasma Science / Oct 01, 2020

Garhwal, A., Arumona, A. E., Ray, K., Youplao, P., Suwandee, S., & Yupapin, P. (2020). Microplasma Source Circuit Using Microring Space–Time Distortion Control. IEEE Transactions on Plasma Science, 48(10), 3600–3605. https://doi.org/10.1109/tps.2020.3020071

Integrating Metamaterial Antenna Node and LiFi for Privacy Preserving Intelligent COVID-19 Hospital Patient Management

Cognitive Computation / Jan 11, 2021

Garhwal, A., Bunruangses, M., Arumona, A. E., Youplao, P., Ray, K., Suwandee, S., & Yupapin, P. (2021). Integrating Metamaterial Antenna Node and LiFi for Privacy Preserving Intelligent COVID-19 Hospital Patient Management. Cognitive Computation. https://doi.org/10.1007/s12559-020-09778-6

Full‐time slot teleportation using unified space‐time function control

Microwave and Optical Technology Letters / Feb 08, 2020

Arumona, A. E., Amiri, I. S., Singh, G., & Yupapin, P. (2020). Full‐time slot teleportation using unified space‐time function control. Microwave and Optical Technology Letters, 62(6), 2183–2188. Portico. https://doi.org/10.1002/mop.32307

Human-like stereo sensors using plasmonic antenna embedded MZI with space–time modulation control [Invited]

Chinese Optics Letters / Jan 01, 2021

Garhwal, A., Arumona, A. E., Youplao, P., Ray, K., Amiri, I. S., & Yupapin, P. (2021). Human-like stereo sensors using plasmonic antenna embedded MZI with space–time modulation control [Invited]. Chinese Optics Letters, 19(10), 101301. https://doi.org/10.3788/col202119.101301

Micro-metamaterial antenna characteristics using microring embedded silver bars

Microsystem Technologies / May 18, 2020

Arumona, A. E., Garhal, A., Punthawanunt, S., Ray, K., Youplao, P., & Yupapin, P. (2020). Micro-metamaterial antenna characteristics using microring embedded silver bars. Microsystem Technologies, 26(12), 3927–3933. https://doi.org/10.1007/s00542-020-04887-6

3D‐quantum interferometer using silicon microring‐embedded gold grating circuit

Microscopy Research and Technique / May 30, 2020

Arumona, A. E., Amiri, I. S., Punthawanunt, S., Ray, K., Singh, G., Bharti, G. K., & Yupapin, P. (2020). 3D‐quantum interferometer using silicon microring‐embedded gold grating circuit. Microscopy Research and Technique, 83(10), 1217–1224. Portico. https://doi.org/10.1002/jemt.23513

Electron density transport using microring circuit for dual-mode power transmission

Optical and Quantum Electronics / Apr 01, 2020

Arumona, A. E., Amiri, I. S., Punthawanunt, S., Ray, K., & Yupapin, P. (2020). Electron density transport using microring circuit for dual-mode power transmission. Optical and Quantum Electronics, 52(4). https://doi.org/10.1007/s11082-020-02337-1

Realizing THz RFID Using Silicon Chip Space-Time Control Circuit

Silicon / Feb 03, 2021

Bunruangses, M., Arumona, A. E., Youplao, P., Punthawanunt, S., Ray, K., Ali, J., & Yupapin, P. (2021). Realizing THz RFID Using Silicon Chip Space-Time Control Circuit. Silicon, 13(10), 3725–3732. https://doi.org/10.1007/s12633-021-00960-5

Modeling of a superconducting sensor with microring-embedded gold-island space–time control

Journal of Computational Electronics / Jul 22, 2020

Bunruangses, M., Arumona, A. E., Youplao, P., Pornsuwancharoen, N., Ray, K., & Yupapin, P. (2020). Modeling of a superconducting sensor with microring-embedded gold-island space–time control. Journal of Computational Electronics, 19(4), 1678–1684. https://doi.org/10.1007/s10825-020-01548-9

Hall effect sensors using polarized electron cloud spin orientation control

Microscopy Research and Technique / Oct 07, 2020

Arumona, A. E., Garhwal, A., Youplao, P., Amiri, I. S., Ray, K., Punthawanunt, S., & Yupapin, P. (2020). Hall effect sensors using polarized electron cloud spin orientation control. Microscopy Research and Technique, 84(3), 563–570. Portico. https://doi.org/10.1002/jemt.23614

Mindfulness Model Using Polariton Oscillation in Plasmonic Circuit for Human Performance Management

Axioms / Jul 08, 2020

Suwandee, S., Arumona, A. E., Ray, K., Youplao, P., & Yupapin, P. (2020). Mindfulness Model Using Polariton Oscillation in Plasmonic Circuit for Human Performance Management. Axioms, 9(3), 76. https://doi.org/10.3390/axioms9030076

Material- and shape-dependent optical modes of hyperbolic spheroidal nano-resonators

Optics Express / Jun 28, 2023

Arumona, A. E., Czajkowski, K. M., & Antosiewicz, T. J. (2023). Material- and shape-dependent optical modes of hyperbolic spheroidal nano-resonators. Optics Express, 31(14), 23459. https://doi.org/10.1364/oe.494389

Electron cloud zeeman effect sensors using silver bars embedded microring resonator

Optical and Quantum Electronics / Feb 04, 2022

Arumona, A. E., Garhwal, A., Khunnam, W., Youplao, P., Ray, K., & Yupapin, P. (2022). Electron cloud zeeman effect sensors using silver bars embedded microring resonator. Optical and Quantum Electronics, 54(3). https://doi.org/10.1007/s11082-021-03477-8

Plasmonic Antenna Embedded Chalcogenide MZI Circuit for Ultra-high Density Up- and Downlink Transmission

Plasmonics / Jan 12, 2021

Arumona, A. E., Garhwal, A., Bunruangses, M., Ray, K., Youplao, P., Punthawanunt, S., & Yupapin, P. (2021). Plasmonic Antenna Embedded Chalcogenide MZI Circuit for Ultra-high Density Up- and Downlink Transmission. Plasmonics, 16(3), 947–955. https://doi.org/10.1007/s11468-020-01323-3

Ultra-High Capacity FSK Transmission Using Silicon Microring Embedded Gold Grating Circuits

Silicon / May 25, 2020

Arumona, A. E., Amiri, I. S., Punthawanunt, S., Ray, K., & Yupapin, P. (2020). Ultra-High Capacity FSK Transmission Using Silicon Microring Embedded Gold Grating Circuits. Silicon, 13(5), 1295–1301. https://doi.org/10.1007/s12633-020-00522-1

Electron cloud spin generated by microring space‐time control circuit for 3D quantum printing

Microwave and Optical Technology Letters / Jun 18, 2020

Arumona, A. E., Punthawanunt, S., Ray, K., Phunklang, S., & Yupapin, P. (2020). Electron cloud spin generated by microring <scp>space‐time</scp> control circuit for <scp>3D</scp> quantum printing. Microwave and Optical Technology Letters, 62(12), 3702–3708. Portico. https://doi.org/10.1002/mop.32490

Distributed MEMS Sensors Using Plasmonic Antenna Array Embedded Sagnac Interferometer

Plasmonics / Feb 17, 2022

Garhwal, A., Arumona, A. E., Youplao, P., Ray, K., & Yupapin, P. (2022). Distributed MEMS Sensors Using Plasmonic Antenna Array Embedded Sagnac Interferometer. Plasmonics, 17(3), 1119–1127. https://doi.org/10.1007/s11468-021-01577-5

MUX/DEMUX circuit using plasmonic antennas for LiFi and WiFi uplink and downlink transmission

Photonic Network Communications / Jan 16, 2022

Garhwal, A., Arumona, A. E., Ray, K., Youplao, P., Punthawanunt, S., & Yupapin, P. (2022). MUX/DEMUX circuit using plasmonic antennas for LiFi and WiFi uplink and downlink transmission. Photonic Network Communications, 43(2), 147–155. https://doi.org/10.1007/s11107-021-00959-3

Simulation of Hypersonic Viscous Flow Past a 2D Circular Cylinder Using Lattice Boltzmann Method

ASME 2010 3rd Joint US-European Fluids Engineering Summer Meeting: Volume 1, Symposia – Parts A, B, and C / Jan 01, 2010

Kamali, R., & Tabatabaee Frad, A. H. (2010, January 1). Simulation of Hypersonic Viscous Flow Past a 2D Circular Cylinder Using Lattice Boltzmann Method. ASME 2010 3rd Joint US-European Fluids Engineering Summer Meeting: Volume 1, Symposia – Parts A, B, and C. https://doi.org/10.1115/fedsm-icnmm2010-30482

Density functional theory calculation of band gap of Iron (II) disulfide and Tellurium

Invertis Journal of Science & Technology / Jan 01, 2017

Arumona, E. A. (2017). Density functional theory calculation of band gap of Iron (II) disulfide and Tellurium. Invertis Journal of Science &amp; Technology, 10(4), 171. https://doi.org/10.5958/2454-762x.2017.00028.2

REFRACTIVE INDEX DATA

Ternary Chalcopyrite Semiconductors: Growth, Electronic Properties, and Applications / Jan 01, 1975

REFRACTIVE INDEX DATA. (1975). In Ternary Chalcopyrite Semiconductors: Growth, Electronic Properties, and Applications (pp. 231–241). Elsevier. https://doi.org/10.1016/b978-0-08-017883-7.50014-7

Distributed MEMS Sensors using Plasmonic Antenna Array Embedded Sagnac Interferometer

May 19, 2021

Garhwal, A., Arumona, A. E., Youplao, P., Ray, K., & Yupapin, P. (2021). Distributed MEMS Sensors using Plasmonic Antenna Array Embedded Sagnac Interferometer. https://doi.org/10.21203/rs.3.rs-478714/v1

Microfluidic Flow Rate Sensor Using Electron Cloud Plasma Transport Within Silicon Microring Circuits

IEEE Sensors Journal / Dec 15, 2021

Arumona, A. E., Garhwal, A., Bunruangses, M., Pornsuwancharoen, N., Ray, K., Youplao, P., Amiri, I. S., & Yupapin, P. (2021). Microfluidic Flow Rate Sensor Using Electron Cloud Plasma Transport Within Silicon Microring Circuits. IEEE Sensors Journal, 21(24), 27268–27274. https://doi.org/10.1109/jsen.2021.3124368

3D Fringe Pattern Coding and Recognition Using Plasmonic Sensing Circuit

Plasmonics / May 17, 2021

Arumona, A. E., Garhwal, A., Youplao, P., Ray, K., Khunnam, W., & Yupapin, P. (2021). 3D Fringe Pattern Coding and Recognition Using Plasmonic Sensing Circuit. Plasmonics, 16(6), 1955–1961. https://doi.org/10.1007/s11468-021-01460-3

Micro-supercapacitor characteristics using a micro-ring space-time control circuit

Journal of Computational Electronics / Feb 24, 2021

Arumona, A. E., Garhwal, A., Punthawanunt, S., Youplao, P., Ray, K., & Yupapin, P. (2021). Micro-supercapacitor characteristics using a micro-ring space-time control circuit. Journal of Computational Electronics, 20(2), 928–933. https://doi.org/10.1007/s10825-020-01629-9

Microring Plasmonic Circuit Characteristics Using Space–Time Modulation Control

Plasmonics / Nov 02, 2020

Arumona, A. E., Amiri, I. S., Punthawanunt, S., Youplao, P., Ray, K., & Yupapin, P. (2020). Microring Plasmonic Circuit Characteristics Using Space–Time Modulation Control. Plasmonics, 16(2), 533–539. https://doi.org/10.1007/s11468-020-01299-0

Microring Distributed Sensors Using Electron Cloud Generated by Four-point Probe Sagnac Interferometer

Feb 11, 2021

Garhwal, A., Arumona, A. E., Ray, K., Youplao, P., Singh, G., & Yupapin, P. (2021). Microring Distributed Sensors Using Electron Cloud Generated by Four-point Probe Sagnac Interferometer. https://doi.org/10.20944/preprints202102.0279.v1

3D-Fringe Pattern Coding and Recognition Using Plasmonic Sensing Circuit

Mar 09, 2021

Arumona, A. E., Garhwal, A., Youplao, P., Ray, K., Khunnam, W., & Yupapin, P. (2021). 3D-Fringe Pattern Coding and Recognition Using Plasmonic Sensing Circuit. https://doi.org/10.21203/rs.3.rs-204711/v1

Density Functional Theory Calculation of Band Gap of Iron (II) disulfide and Tellurium

Advanced Journal of Graduate Research / Nov 18, 2017

Arumona, A. E., & N, A. A. (2017). Density Functional Theory Calculation of Band Gap of Iron (II) disulfide and Tellurium. Advanced Journal of Graduate Research, 3(1), 41–46. LOCKSS. https://doi.org/10.21467/ajgr.3.1.41-46

Prediction of band gap of some selected semiconductors in the space group (F43m) using density functional theory

Invertis Journal of Science & Technology / Jan 01, 2017

Arumona, A. E. (2017). Prediction of band gap of some selected semiconductors in the space group (F43m) using density functional theory. Invertis Journal of Science &amp; Technology, 10(4), 196. https://doi.org/10.5958/2454-762x.2017.00032.4

Education

University of Warsaw

PhD, Physics

Warsaw

University of Agriculture

M.Sc, Physics / May, 2018

Makurdi

Benue State University

B.Sc, Physics / May, 2011

Makurdi

Experience

Ton Duc Thang University

Research Assistant / January, 2019November, 2021

Methodist High School

Physics Teacher / October, 2012September, 2015

Join Arumona Edward on NotedSource!
Join Now

At NotedSource, we believe that professors, post-docs, scientists and other researchers have deep, untapped knowledge and expertise that can be leveraged to drive innovation within companies. NotedSource is committed to bridging the gap between academia and industry by providing a platform for collaboration with industry and networking with other researchers.

For industry, NotedSource identifies the right academic experts in 24 hours to help organizations build and grow. With a platform of thousands of knowledgeable PhDs, scientists, and industry experts, NotedSource makes connecting and collaborating easy.

For academic researchers such as professors, post-docs, and Ph.D.s, NotedSource provides tools to discover and connect to your colleagues with messaging and news feeds, in addition to the opportunity to be paid for your collaboration with vetted partners.

Expert Institutions
NotedSource has experts from Stanford University
Expert institutions using NotedSource include Oxfort University
Experts from McGill have used NotedSource to share their expertise
University of Chicago experts have used NotedSource
MIT researchers have used NotedSource
Proudly trusted by
Microsoft uses NotedSource for academic partnerships
Johnson & Johnson academic research projects on NotedSource
ProQuest (Clarivate) uses NotedSource as their industry academia platform
Slamom consulting engages academics for research collaboration on NotedSource
Omnicom and OMG find academics on notedsource
Unilever research project have used NotedSource to engage academic experts