Mr. Nabeel Mohammed Saad Kaawash | Physics | Best Researcher Award

Mr. Nabeel Mohammed Saad Kaawash | Physics | Best Researcher Award

Physics at Swami Ramanand Teerth Marathwada University, Nanded , India

👨‍🎓He remarkable academic journey, extensive research contributions, and dedication to the field of psychology are truly commendable. Your wealth of knowledge and diverse skill set reflect a deep commitment to understanding and addressing critical issues such as bullying, inclusion, and socialization.

🔬 He successful completion of a PhD in Psychology, along with the numerous advanced courses and workshops, showcases your continuous pursuit of excellence and expertise in your field.

🏆 The awards and recognitions, including the First Place in the Poster Award at the University of Stavanger, underscore the impact of your research and the high regard it holds in the academic community.

Professional Profiles:

Education:

Mr. Nabeel Mohammed Saad Kaawash is currently pursuing his Ph.D. at Swami Ramanand Teerth Marathwada University, Nanded, under the guidance of Dr. Kashinath A. Bogle at the School of Physical Sciences. His research focuses on the synthesis of 2D Metal Oxide Nanostructures and their optical and optoelectronic properties for photodetector device applications. Prior to his Ph.D., Mr. Kaawash completed his M.Sc. in Physics with an impressive CGPA of 8.71 and an “A++” grade from Dr. Babasaheb Ambedkar Marathwada University, Aurangabad, India, under the guidance of Dr. Prabhakar Undre. His project during his Master’s studies involved studying the availability of quartz in soil using FTIR techniques. He also holds a Bachelor’s degree in Physics from the Faculty of Education Arhab, Sana’a University, Yemen, where he achieved a CGPA of 75.68 and an “A” grade. His work experience includes the Department of Physics at Sana’a University.

Experience:

Mr. Nabeel Mohammed Saad Kaawash is an expert in Spray Pyrolysis and spin coating systems for the growth of metal oxide/sulfide thin films and nanostructures. He has experience in the synthesis and characterization of these thin films for photo-detector applications. Mr. Kaawash has developed an innovative approach for the fabrication of photo-detectors. He possesses expertise in operating analytical instruments, including X-ray Diffractometer (RIGAKU Mini Flex-II), UV-VISIR Spectrophotometer (Shimadzu), SEM, Raman spectroscopy, Photoluminescence spectra (PL), and Fourier-Transform Infrared Spectroscopy (FTIR), and analyzing the results.

Skills:

Mr. Nabeel Mohammed Saad Kaawash possesses advanced research abilities, specializing in the synthesis of metal oxide nanoparticles and thin film deposition. He has a strong background in investigating the properties of composite materials, particularly in the areas of electronic, magnetic, and optical properties. His expertise extends to the manufacturing of polymers and he has knowledge in optoelectronics, thin films, and nanotechnology. Additionally, Mr. Kaawash is highly proficient in using various computer software, including Windows, Word, Excel, PowerPoint, and Internet applications. He is known for his strong problem-solving and analytical skills, along with his ability to manage multiple tasks effectively even under pressure.

Extra Activity:

Mr. Nabeel Mohammed Saad Kaawash is an expert in spray pyrolysis and spin coating systems for the growth of metal oxide/sulfide thin films and nanostructures. He has experience in the synthesis and characterization of these thin films for photodetector applications and has developed an innovative approach for their fabrication. He is skilled in operating various analytical instruments, including the X-ray Diffractometer (RIGAKU Mini Flex-II), UV-VISIR Spectrophotometer (Shimadzu), SEM, Raman spectroscopy, Photoluminescence spectra (PL), and Fourier-Transform Infrared Spectroscopy (FTIR).

Publications:

  1. Highly stable and sensitive photon detection performance of ZnO thin film for ultraviolet light
    • Authors: NMS Kaawash, N Kejriwal, DI Halge, VN Narwade, AS Rana, JW Dadge, …
    • Journal: Physica B: Condensed Matter
    • Citations: 21
    • Year: 2022
  2. Rationally designed state-of-the-art approach for enhancing the ultraviolet photon detection performance of ZnO thin film
    • Authors: NMS Kaawash, DI Halge, VN Narwade, PS Alegaonkar, KA Bogle
    • Journal: Phys. B Condens. Matter
    • Citations: 8
    • Year: 2023
  3. High-performance and ultra-sensitive ultraviolet photodetector based on surface passivated α-Fe2O3 thin film
    • Authors: NMS Kaawash, DI Halge, VN Narwade, PS Alegaonkar, KA Bogle
    • Journal: Materials Chemistry and Physics
    • Citations: 7
    • Year: 2023
  4. Simple and Productive Method to Develop Highly Sensitive and Fast Infrared Photodetector Using Spray Deposited Nanocrystalline PbS Thin Film
    • Authors: MYH Thabit, NMS Kaawash, S Begum, DI Halge, VN Narwade, …
    • Journal: Journal of Physics: Conference Series
    • Citations: 3
    • Year: 2023
  5. Fabrication of Near Ultraviolet Photodetector using α-Fe2O3 Thin Film Synthesized via Spray Coating Technique
    • Authors: NMS Kaawash, DI Halge, VN Narwade, JW Dadge, KA Bogle
    • Journal: Journal of Physics: Conference Series
    • Citations: 3
    • Year: 2023
  6. Development of an ultrafast photo-switch device using surface passivated nanocrystalline CdS thin film
    • Authors: DI Halge, PM Khanzode, NMS Kaawash, MYH Thabit, VN Narwade, …
    • Journal: Materials Today: Proceedings
    • Citations: 2
    • Year: 2023
  7. Development of flexible and highly efficient infrared photo-detector device using PbS thin film
    • Authors: MYH Thabit, NMS Kaawash, DI Halge, PM Khanzode, VN Narwade, …
    • Journal: Materials Today: Proceedings
    • Citations: 2
    • Year: 2023
  8. Rationally designed state-of-the-art approach for enhancing the ultraviolet photon detection performance of ZnO thin film
    • Authors: NMS Kaawash, DI Halge, VN Narwade, PS Alegaonkar, KA Bogle
    • Journal: Physica B: Condensed Matter
    • Citations: 2
    • Year: 2023
  9. Polarization-independent enhancement in UV photoconductivity of BiFeO3/Sn: In2O3 heterostructure
    • Authors: RR Banda, DI Halge, VN Narwade, NMS Kaawash, MYH Thabit, …
    • Journal: Physica B: Condensed Matter
    • Citations: 1
    • Year: 2023
  10. IR photodetector capabilities of p-NiO/n-ZnO heterojunction structure
    • Authors: ABU Rahman, S Begum, NMS Kaawash, MYH Thabit, DI Halge, …
    • Journal: Materials Today: Proceedings
    • Citations: 1
    • Year: 2023

Dr. Dragoslav Masovic | Attosecond Physics | Best Researcher Award

Dr. Dragoslav Masovic | Attosecond Physics | Best Researcher Award

Serbia at Attosecond Physics , Vinca Institute for Nuclear Science, Serbia

👨‍🎓He remarkable academic journey, extensive research contributions, and dedication to the field of psychology are truly commendable. Your wealth of knowledge and diverse skill set reflect a deep commitment to understanding and addressing critical issues such as bullying, inclusion, and socialization.

🔬 He successful completion of a PhD in Psychology, along with the numerous advanced courses and workshops, showcases your continuous pursuit of excellence and expertise in your field.

🏆 The awards and recognitions, including the First Place in the Poster Award at the University of Stavanger, underscore the impact of your research and the high regard it holds in the academic community.

Professional Profiles:

Education:

Dr. Dragoslav Masovic holds a Ph.D. in Physics, which he obtained in 1984 from the Faculty of Mathematics and Natural Sciences at the University of Belgrade. Prior to his Ph.D., he earned his M.Sc. in 1978 and his B.Sc. in 1976, both from the Faculty of Electrical Engineering in Niš, Serbia.

Experience:

Dr. Dragoslav Masovic’s career spans several significant roles and international experiences. From 1976 to 1979, he served as an Assistant at the Faculty of Electrical Engineering in Niš. Following this, he completed military service from 1979 to 1980. Subsequently, he joined the Institute for Nuclear Sciences ”Vinča” where he worked in the Laboratory for Theoretical Physics as a Scientific Associate from 1980 to 1995. After a period of intermittent sick leave from 1996 to 2007, he resumed his association with the Institute for Nuclear Sciences ”Vinča” in 2008, this time in the Laboratory for Theoretical and Condensed Matter Physics as an External Associate. Additionally, Dr. Masovic has had international experiences, including a one-month stay at the University of Bath, School of Physics, Bath, England, in 1987, where he communicated with Dr. D.W. Bullett, and a one-month stay at the Israel Institute of Technology-Technion, Department of Physics, Haifa, Israel, in 1993, where he communicated with Prof. Shmuel Fishman.

Research Fields:

Dr. Dragoslav Masovic has expertise and research interests in various areas of physics, including Chaos and Quantum Chaos, Solid State Physics, Nanophysics, and Atomic and Molecular Physics. In Chaos and Quantum Chaos, he explores the possibilities of generating high-order harmonic generation and attosecond pulse train applications. His work involves studying the kicked rotor and billiards in both classical and quantum versions, as well as investigating time-reversal symmetry and inhomogeneous magnetic fields. In Solid State Physics, Dr. Masovic focuses on energy band structure calculations, modified energy bands in the kicking laser field or due to attosecond pulses, symmetry and group theory, pseudopotentials, tight-binding methods, and optical properties of solids. His research in Nanophysics involves studying nanostructures in the kicking electric field. In Atomic and Molecular Physics, he works on generating high-order harmonic generation in atomic and molecular gases under pressure, as well as the application of the kicking electric field. Additionally, Dr. Masovic is involved in developing methods for solving the time-dependent Schrödinger equation.

Publications:

Alkali metals in the attosecond pulse train

Kicked rotor with attosecond pulse train

High harmonic generation and the billiards

High-harmonic generation and the kicked quantum dots

High-harmonic generation and spherically confined hydrogen atom

Unusually kicked dynamics: Hydrogen atom in a spherical box

Discrete time method for the problem interaction electromagnetic wave-atom at very high frequencies

Solid in the kicking laser field

Standard spin-1/2 quantum kicked rotor in the inhomogeneous magnetic field

The tight-binding model corresponding to the quantum kicked rotor for a spin- 1 2 particle in the magnetic field