Dr. Ongard Thiabgoh
ดร.องอาจ เทียบเกาะ
Dr. Ongard Thiabgoh
Department : ภาควิชาฟิสิกส์
Room : Sc371 Science Research Building
Phone : 4528
Mobile : 098-1506115
E-mail : thiabgoh.ongard@gmail.com, ongard.t@ubu.ac.th
Education

Ongard "Edd" on Google Scholar 

2018   Ph.D. (Applied Physics), University of South Florida, USA

ADVISORS:  PROF. MANH-HUONG PHAN & PROF. HARI SRIKANTH

2016   M.S. (Physics), University of South Florida, USA

2012   M.S. (Applied Physics) Texas Tech University, USA

ADVISOR:  PROF. Luis Grave de Peralta

2006   Grad. Dip. (Science Teaching Profession), Silpakorn University, Thailand (A recipient of the PSMT Scholarship)

2005   B.S. (Physics, First class honor), Ubon Ratchathani University, Thailand (A recipient of the  PSMT Scholarship)

1998   Grade 9-12, Buriram Pittayakhom School, Thailand (A recipient of the promotion of Science and Mathematics talented Teachers : PSMT (Mattayomsuksa 4-6) Scholarship of IPST)

Research interest

Giant magneto-impedance (GMI) phenomena in amorphous magnetic materials for advanced sensing applications.

Structural and surface magnetic characterizations of melt-extracted magnetic materials.

Material development and design of high-performance magnetic sensing elements and LC resonance technology for industrial applications, advanced biomedical devices, and biodetections.

Investigation of the optical properties of plasmonic crystals and metamaterials using leakage radiation microscopy for nanophotonic applications. 

Award and honour

  • 2006              Prof. Thab Neelanithi Foundation Award for distinction  science graduation.

    2002-2004     Distinction Student Award for Faculty of Science, Ubon Ratchathani University.

Research grant

  • Research Grants

    • Ubon Ratchathani University Research Fund
    • USF COVID-19 Research Foundation (collaborative work)
    • U.S. Department of Energy (collaborative work)
    • Vietnam Ministry of Science and Technology (collaborative work)

    Teaching and Research Assistantships

    •    Laboratory for Advanced Sensor Technologies  
    •    Department of Physics, USF
    •    Department of Education, Silpakorn University  

    Scholarships

         2010-2018     A recipient of Royal Thai Government Scholarship from the Ministry of Science and Technology.

         2001-2004    A recipient of the Scholarship project of the promotion of Science and Mathematics talented Teachers : PSMT (Undergraduate level).

         1998-2000    A recipient of the Scholarship project of the promotion of Science and Mathematics talented Teachers : PSMT (Mattayomsuksa 4-6) from The Institute for the Promotion of Teaching Science and Technology (IPST)

     

Working experience

  • Technical Reviewer for  peer-reviewed journals:

  • Administrative experiences:

    •  Associate Director, the Office of Academic Resources (OAR), UBU, Thailand                                                                                                    April 2020- September 2020, January 2022-current.
    • Assistant Director, the Office of Academic Resources (OAR), UBU, Thailand                                                                                                     October 2019- March 2020

  • Industrial Practicum: MicroMaterials, Inc. 13302 Telecom Drive, Tampa, FL 33637

      Febuary 5th, 2018 - March 20th 2018. Supervisor: Nicholas Djeu

      (Professor Emeritus, Fellow of Optical Society of America) 

  • Teacher License: The Teachers’ Council of Thailand

     License No. 49109000204234 

  • Ubon Ratchatani University, Thailand  

      June 2018 - Present

      Lecturer, Department of Physics

    Teaching and Research Assistant

    University of South Florida                             

        Aug 2014- May 2018

        General  Physics I & II, General Physics Lab I & II and Advanced Physics Lab

        Developed online modular components on CANVAS applied now to  all general Physics labs

    Texas Tech University

        Aug 2011-2012

        Optics Lab

    Silpakorn University

        Aug 2008- Sep 2009

        Statistical methods for behavioral science research (graduate level)

        Nov 2006- May 2007

        Classical Mechanics (The demonstration school of Silpakorn University)

    Ubon Ratchatani University                            

        Aug 2007-Jul 2008

        Intermediate/Advanced Physics  Lab, General  Physics  Labs

Publication

  1. JOURNAL PUBLICATIONS

    1.  Regan, C. J., Thiabgoh, O., Grave de Peralta L., and Bernussi. A. A. “Probing photonic Bloch wavefunctions with plasmon-coupled leakage radiation” Opt. Express. 20 (8), 8660 (2012). https://doi.org/10.1364/OE.20.008658 
    2.  O. Thiabgoh, H. Shen, T. Eggers, A. Galati, S. Jiang, J. S. Liu, Z. Li, J. F. Sun, H. Srikanth, and M. H. Phan, Enhanced high-frequency magneto-impedance response of melt-extracted Co69.25Fe4.25Si13B13.5 microwires subject to Joule annealing, J. Adv. Mater. Dev. 1 (2016) 69-74. https://doi.org/10.1016/j.jsamd.2016.04.003 
    3.  T. Eggers*, O. Thiabgoh*, S. D. Jiang, H. X. Shen, J. S. Liu, J.F. Sun, H. Srikanth, and M.H. Phan, Tailoring circular magnetic domain structure and high frequency magneto-impedance of melt-extracted Co69.25Fe4.25Si13B13.5 microwires through Nb doping, AIP Advances 7, 056643 (2017). (*Equal contribution). https://doi.org/10.1063/1.4975134 
    4. S.D. Jiang , T. Eggers, O. Thiabgoh, D.W. Xing, W.D. Fei, H.X. Shen, J.S. Liu, J.R. Zhang, W.B. Fang, J.F. Sun, H. Srikanth, and M.H. Phan, Relating surface roughness and magnetic domain structure to giant magneto-impedance of Co-rich melt-extracted microwires, Sci. Rep. 7 (2017) 46253. https://doi.org/10.1038/srep46253
    5. O. Thiabgoh, T. Eggers, and M.H. Phan, A new contactless magneto-LC resonance technology for real-time respiratory motion monitoring, Sens. Actuator, A-Phys. 265 (2017) 120-126. https://doi.org/10.1016/j.sna.2017.08.043 
    6. O. Thiabgoh, T. Eggers, V.O. Jimenez, S.D. Jiang, J.F. Sun, and M.H. Phan, Real-time monitoring of position and motion of a non-stationary object with a highly sensitive magnetic impedance sensor, J. Adv. Mater. Dev. 3 (2018) 122-128. https://doi.org/10.1016/j.jsamd.2018.01.006 
    7. O. Thiabgoh, T. Eggers, S.D. Jiang, J. F. Sun and M. H. Phan, Real-time Monitoring and Failure Prediction of Gear Rotation with a Contactless RF Magnetic Sensor, J.  Electron. Mater. 48 (2019) 4000-4006. https://doi.org/10.1007/s11664-019-07161-2 
    8.  S.D. Jiang, T. Eggers, O. Thiabgoh, D.W. Xing, W.B. Fang, J.F. Sun, H. Srikanth, and M.H. Phan, Enhancement of Giant Magneto-Impedance in Series Co-Rich Microwires for Low-Field Sensing Applications, J.  Electron. Mater. 47 (2018) 2667-2672. https://doi.org/10.1007/s11664-018-6097-9 
    9.  T. Eggers, D.S. Lam, O. Thiabgoh, J. Marcin, P. Švec, N.T. Huong, I. Škorvánek, and M.H. Phan, Impact of the transverse magnetocrystalline anisotropy of a Co coating layer on the magnetoimpedance response of FeNi-rich nanocrystalline ribbon, J. Alloys Compd. 741 (2018) 1105-1111. https://doi.org/10.1016/j.jallcom.2018.01.206 
    10.  N.T.M. Duc, H.X. Shen, E. Clements, O. Thiabgoh, J.L. Sanchez Llamazares, C.F. Sanchez-Valdes, N.T. Huong, J. F. Sun, H. Srikanth, and M.H. Phan, Critical magnetic and magnetocaloric behaviors of amorphous melt-extracted Gd50(Co69.25Fe4.25Si13B13.5)50 microwires, Intermetallics. 110, 106479 (2019). https://doi.org/10.1016/j.intermet.2019.106479 
    11. NTM Duc, HX Shen, EM Clements, O Thiabgoh, JL Sanchez Llamazares, CF Sanchez-Valdes, NT Huong, JF Sun, H Srikanth, MH Phan. Enhanced refrigerant capacity and Curie temperature of amorphous Gd60Fe20Al20 microwires, J. Alloys Compd. 807 (2019) 51694. https://doi.org/10.1016/j.jallcom.2019.151694  
    12. N.T.M.Duc, H.X.Shen , O.Thiabgoh, N.T.Huong, J.F.Sun, M.H.Phan. Melt-extracted Gd73.5Si13B13.5/GdB6 ferromagnetic/antiferromagnetic microwires with excellent magnetocaloric properties, J. Alloys Compd. 818 (2019) 153333. https://doi.org/10.1016/j.jallcom.2019.153333 

    13. O. Thiabgoh, T. Eggers, C. Albrecht, V. O. Jimenez, H. Shen, S. D. Jiang, J. F. Sun, D. S. Lam, V. D. Lam, M. H. Phan. “Optimization of the high-frequency magnetoimpedance response in melt-extracted Co-rich microwires through novel multiple-step Joule heating”, Journal of Science: Advanced Materials and Devices.(2021) https://doi.org/10.1016/j.jsamd.2021.03.002

    14. Dumrongsak Rodphothong, Ongard Thiabgoh and Tanin Nutaro, Cosmic Radiation Exposure of Aircraft Crew under the Impact of Geomagnetic Vertical Cutoff Rigidity: Case Study of International Flights from Suvarnabhumi Airport, Thailand, Vol.49 No.2 (2022). https://doi.org/10.12982/CMJS.2022.032
    15. Valery Ortiz Jimenez†, Kee Young Hwang†, Dang Nguyen, Yasif Rahman, Claire Albrecht, Baylee Senator, Ongard Thiabgoh*, Jagannath Devkota, Vinh Duc An Bui, Dao Son Lam, Tatiana Eggers*, and Manh-Huong Phan*, Magnetoimpedance Biosensors and Real-Time Healthcare Monitors: Progress, Opportunities, and Challenges. Biosensors (2022). https://doi.org/10.3390/bios12070517

  2. PRESENTATIONS

    1. O. Thiabgoh, T. Eggers, S.D. Jiang , H. X. Shen, D.W. Xing, W. D. Fei, J. S. Liu, J.R. Zhang, W.B. Fang, J.F. Sun, H. Srikanth, and M.H. Phan, “Correlation of surface magnetic domain structures by magnetic force microscopy with giant magneto-impedance of amorphous microwires,” The 61st annual MMM conference, November, 2016, New Orleans, LA, USA (Poster).

    2. O. Thiabgoh, T. Eggers, S.D. Jiang ,, H. X. Shen, D.W. Xing, W. D. Fei, J. S. Liu, J.R. Zhang, W.B. Fang, J.F. Sun, H. Srikanth, and M.H. Phan, “Impact of Polycrystalline Co Layer on High Frequency Impedance and Surface Magnetism of FeNi-based Ribbons” the 61st MMM conference, November, 2016, New Orleans, LA, USA (Poster).

     3. O. Thiabgoh, T. Eggers, and M.H. Phan, “A new LC-resonance impedance technology for real-time respiratory motion monitoring”, the 9th annual USF Graduate Research Symposium 2017, March, 20, 2017, Tampa FL, USA (Poster).

    4. O. Thiabgoh, T. Eggers, and M.H. Phan, “A new contactless magneto-LC resonance technology for real-time respiratory motion monitoring”, the 62nd annual MMM conference November, 6-10, 2017, Pittsburg, PA, USA (Poster).

    5. O. Thiabgoh, C. Albrecht, T. Eggers, and M.H. Phan, “Detection of magnetic biomarkers using a single giant magneto-impedance microwire”, Nano-Bio Collaborative International Conference, January, 19-20, 2018, Tampa FL, USA (Poster).

    6. O. Thiabgoh, T. Eggers, and M.H. Phan, “A new contactless magneto-LC resonance technology for real-time respiratory motion monitoring” Magnetic conference 2018 February, 8-9, 2018, Orlando, FL, USA (Poster).

    7. C. Witanachchi, S. Beyley, O. Thiabgoh, and M. H. Phan, A Contactless High Frequency LC-Resonant Sensor for Bioenvironmental Monitoring, REU-RET 2017 Poster Symposium, July, 26, 2017, Tampa FL, USA.

    8. C. Albrecht, T. Eggers, O. Thiabgoh, and M. Phan, Detecting superparamagnetic nanoparticles with high frequency giant magneto-impedance microwires, REU-RET 2017 Poster Symposium, July, 26, 2017, Tampa FL, USA.

    9. V. Ortiz, J. Dietz, O. Thiabgoh, T. Eggers, and M. H. Phan, the 10th annual USF Graduate Research Symposium 2018, March, 21, 2018, Tampa FL, USA (Poster).

    10. O. Thiabgoh, T. Eggers, V. Kalappattil, R. Das, M. Bonilla, S.  Kolekar, M. Batzill, and M.H. Phan, Probing room temperature                ferromagnetism in transition metal dichalcogenide monolayers  using high-frequency LC resonator, AVS Florida Chapter  Symposium 2018, May, 7, 2018, Orlando FL, USA (Poster).  

    Patents Application

    1.  US Patent No. US20200029862A1  

                     Retrieved from https://patents.google.com/patent/US20200029862A1/en

    Title: “MAGNETO-LC RESONANCE TECHNOLOGY FOR  REAL-TIME RESPIRATORY MOTION MONITORING”   

                      Inventors:  Ongard Thiabgoh, Tatiana Marie Eggers, and Manh Huong Phan

    2.   Submission

    Title: “DETECTING MAGNETIC NANOBIOMARKERS USING  A SINGLE GIANT MAGNETO-IMPEDANCE MICROWIRE”

                       Inventors:  Ongard Thiabgoh, Tatiana Marie Eggers, and Manh-Huong Phan 

Skills

  • • High-frequency S-parameter measurements

    • Scanning Electron Microscopy (SEM), Energy Dispersive Spectroscopy (EDS), X-ray diffraction.

    • High-numerical aperture (NA) optical microscopy, and leakage radiation microscopy

    • Electron beam physical vapor deposition (EBPVD)

    • Electron beam lithography (EBL)  

    • Pascal, C, Fortran, Matlab, Mathematica, LabVIEW, SPSS, and Latex.

Trainings

  • May  2015 – May 2018

    ADVISORS: DR. MANH-HUONG PHAN & DR. HARI SRIKANTH

    Sensor/Functional Materials Laboratory

    Exploring and tailoring high-frequency giant magneto-impedance (GMI) phenomena in amorphous magnetic materials for advanced sensing applications. Structural and surface magnetic characterizations of melt-extracted magnetic materials. Material development and design of high-performance magnetic sensing elements and LC resonance technology for industrial applications, advanced medical devices, and biodetections. Simulations of high frequency circuit elements, LC-resonators, and GMI-effect in ferromagnetic magnetic materials through Matlab and Fortran.

     May 2011-March 2014

    Advisors: Dr. LUIS GRAVE PERRALTA, DR. ARTON BURNUSSI, AND DR. MARK HOLTHZ

    Plasmonics and Metamaterials Laboratory, and Nanotech Center, Lubbock, Texas Tech University

    Investigation of the optical properties of plasmonic crystals and metamaterials by employing leakage radiation microscopy for nanophotonic applications. The fabrication of two-dimensional nanostructured materials using electron beam physical vapor deposition (EBPVD), conventional spinning, and electron beam lithography (EBL).

    May 2003-March 2005, April 2007-March 2008

    Advisors: DR. ANUCHA YANGTHAISONG, and dr. WIROJANA TRANTRAPORN (Project DIRECTOR)

     Advanced Materials for Energy Technology, Ubon Rachatani University   

    Computer simulations employing Monte Carlo technique. Studying the effects of electron-phonon, electron-photon, and electron-phonon-photon interactions on transport properties in semiconductors by using Monte Carlo method. Employing semi-classical Boltzmann transport equation to explore carrier-transport phenomena in multi-valley semiconductors for photovoltaic applications.