Division of Materials Physics and Optoelectronics

This KBK is intended to produce graduates who are able to plan and carry out research in the field of material physics and its applications. In addition, students who take part in the KBK are expected to be able to control the quality and quantity of energy and develop energy diversification businesses. This area of ??expertise oversees the study of semiconductor physics, superconductors, polymers, and optoelectronics.

The head of KBK for Materials Physics and Optoelectronics is Drs. Made Sumadiyasa, M.Si.

Member:

  1. Dr. Drs. Wayan Gede Suharta, M.Si.
  2. Prof. Dr. Ir.  Hery Suyanto, M.T.
  3. Ir. Putu Suardana, M.Si.
  4. Drs. Ida Bagus Alit Paramarta, M.Si.
  5. I Gusti Agung Putra Adyana, S.Si., M.Si.
  6. Nyoman Wendri, S.Si., M.Si.
  7. I Putu Tedy Indrayana, S.Pd., M.Sc.


The research results of KBK Material Physics and Optoelectronics have been published in international proceedings, accredited national journals, international journals, and even reputable international journals. The following are publications from KBK Material Physics and Optoelectronics.

  1. Shock Excitation and Cooling Stage in The Laser Plasma Induced by A Q-Switched Nd: YAG Laser at Low Pressures. Applied Spectroscopy 53 (6), (1999), 719-730.
  2. Hydrogen Emission by Laser-Induced Shock Wave Plasma and Its Application to The Quantitative Analysis of Zircalloy. Journal of Applied Physics 96 (3), (2004), 1301-1309.
  3. Characteristics of Hydrogen Emission in Laser Plasma Induced by Focusing Fundamental Q-Sw YAG Laser on Solid Samples. Japanese Journal of Applied Physics 43 (7R), (2004), 4221.
  4. Study of Effects of Low Doses UV Radiation on Microporous Polysulfone Membranes in Sterilization Process. Scientific Research Publishing 3(1), (2013), 7.
  5. Quantitative Analysis of Deuterium in Zircaloy Using Double-Pulse Laser-Induced Breakdown Spectrometry (LIBS) and Helium Gas Plasma Without a Sample Chamber. Analytical Chemistry 84 (5), (2012), 2224-2231.
  6. H–D Analysis Employing Energy Transfer from Metastable Excited-State He in Double-Pulse LIBS with Low-Pressure He Gas. Analytical Chemistry 91 (2), (2018), 1571-1577.
  7. Practical Soil Analysis by Laser Induced Breakdown Spectroscopy Employing Subtarget Supported Micro Mesh as A Powder Sample Holder. Spectrochimica Acta Part B: Atomic Spectroscopy 137, (2017), 59-63.
  8. Evidence of Feasible Hardness Test on Mars Using Ratio of Ionic/Neutral Emission Intensities Measured with Laser-Induced Breakdown Spectroscopy in Low Pressure CO2 Ambient Gas. Journal of Applied Physics 119 (16), (2016), 163304.
  9. Sensitive Analysis of Carbon, Chromium and Silicon in Steel Using Picosecond Laser Induced Low Pressure Helium Plasma. Spectrochimica Acta Part B: Atomic Spectroscopy 114, (2015), 1-6.
  10. Characterization and Performance Evaluation of Cellulose Acetate–Polyurethane Film for Lead II Ion Removal. Polymers 12 (6), (2020), 1317.


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