Bei Chen | High energy physics | Best Researcher Award

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Ms. Bei Chen | High energy physics | Best Researcher Award

Tianjin University of Technology | China

Chen Bei is a dynamic Photoelectric Chip Engineer specializing in Condensed Matter Physics with a focus on inorganic semiconductor materials and devices. With solid academic roots and research training from prestigious institutions like Tianjin University of Technology and National University of Defense Technology, Chen Bei is known for his hands-on expertise in photoelectric device fabrication, characterization, and broadband photodetectors. His works contribute to both civilian innovations and defense technologies, demonstrating a rare blend of academic excellence and applied engineering acumen.

šŸ‘Øā€šŸŽ“Profile

Scopus

šŸŽ“ Early Academic Pursuits

Chen Bei began his academic journey in Physics at Inner Mongolia University for Nationalities, where he ranked Top 3 of 50 students and held a leadership role as Vice Minister in the student organization department. His undergraduate studies emphasized quantum mechanics, solid-state physics, and electrodynamics, laying the groundwork for a career in advanced material science. His academic excellence continued with a Masterā€™s in Condensed Matter Physics at Tianjin University of Technology, where he consistently ranked in the top 5 and received competitive scholarships and teaching responsibilities.

šŸ’¼ Professional Endeavors

Currently serving as a Photoelectric Chip Engineer at the Jiangtian Research Group (National University of Defense Technology), Chen Beiā€™s role includes testing photoelectric chip packaging, bare die analysis, and optical path construction. This position builds on his experience in device fabrication, gained through years of semiconductor research. His ongoing work explores integration strategies for military-grade silicon-based photonic systems, marking a critical step in real-world technological deployment. His engineering contributions are aligned with national priorities and show potential for both academic and industrial breakthroughs.

šŸ”¬ Contributions and Research Focus

Chen Beiā€™s research spans self-powered broadband photodetectors, artificial retina simulation, optically controlled logic, and device integration for defense. Notable among these is his published work in ACS Applied Materials & Interfaces, where he developed a CuInSā‚‚/SnOā‚‚-based detector for encrypted optical communication. His focus on interfacial engineering using TiOā‚‚ layers and metal ion doping shows deep engagement with optimizing device sensitivity and functionality across UVā€“Visā€“NIR bands. These contributions are not only novel but also have tangible technological applications.

šŸŒ Impact and Influence

Chen Beiā€™s research has already gained peer recognition, with publications in high-impact journals and ongoing projects that promise cross-disciplinary relevance in biophotonics, optoelectronics, and secure communications. His work on retina-inspired photodetectors and photoelectric logic systems can significantly influence medical imaging, wearable sensors, and neuromorphic computing. Within his research institutions, he is recognized as a bridge between theory and application, contributing meaningfully to team outcomes while enhancing national R&D capabilities in semiconductor optics.

šŸ“š Academic Citations

Chen Beiā€™s primary publication in ACS Applied Materials & Interfaces has received early attention in the material sciences and applied physics community. His upcoming article in Materials Today Energy a high-impact journal will further solidify his standing in energy-sensitive optoelectronic applications. With growing citation potential and interdisciplinary value, his publications are expected to form reference points for future research in low-power photoelectronic systems and bio-inspired photonic devices.

šŸ§Ŗ Research Skills

Chen Bei possesses strong experimental proficiency, including semiconductor material synthesis (spin-coating, hydrothermal, chemical bath deposition) and advanced characterization (SEM, TRPL, XRD, UV-Vis spectroscopy). His fluency with electronic instrumentation like Keithley source meters, vector network analyzers, and electrochemical workstations enables accurate and nuanced analysis of device behavior. He also designs and fabricates devices independently skills that mark him as a complete researcher from concept to validation. His strong grip on Origin, JADE, and Layout software also facilitates precise data interpretation and device simulation.

šŸ‘Øā€šŸ« Teaching Experience

As a graduate teaching assistant at Tianjin University of Technology, Chen Bei supported students in both practical laboratory sessions and coursework in advanced physics topics. His ability to explain complex concepts like semiconductor devices, photonic behavior, and materials characterization reflects his aptitude for mentorship. He played a pivotal role in connecting theoretical learning with lab-based exploration an experience that underlines his capacity to contribute in academic or training-focused environments.

šŸ… Awards and Honors

Chen Bei has consistently ranked among the top students, earning Second-Class Scholarships during both his bachelorā€™s and masterā€™s studies. His selection as Vice Minister of the student organization department reflects strong leadership and organizational abilities. Recognition as a graduate assistant also attests to his teaching competence and trust within the academic community. These accolades, coupled with peer-reviewed publications, position him as a rising talent in applied physics and engineering.

šŸŒŸ Legacy and Future Contributions

Chen Bei is positioned to become a thought leader in optoelectronic integration and semiconductor device engineering. His work has the potential to impact military-grade communication, biomimetic sensors, and self-powered IoT technologies. With growing experience in multidisciplinary collaborations, and exposure to real-world implementation scenarios, he is set to define the next wave of photoelectric innovation. As he continues to evolve, his blend of scientific insight, engineering rigor, and innovation-minded focus will be instrumental in shaping future technologies.

Publications Top Notes

UV-Vis-NIR Broad-Band Self-Powered CuInSā‚‚/SnOā‚‚ Photodetectors and the Application in Encrypted Optical Communication

  • Authors: Chen Be
    Journal: ACS Applied Materials & Interfaces
    Year: 2024

Insertion Layer of TiOā‚‚ to Improve the UVāˆ’Visāˆ’NIR Photoresponse Characteristics of CuInSā‚‚/SnOā‚‚ Self-Powered Photodetectors and Its Application in Artificial Retinas

  • Authors: Chen Bei
    Journal: Materials Today Energy
    Year: 2024

 

Xiangling Tian | High energy physics | Best Researcher Award

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Assoc. Prof. Dr. Xiangling Tian | High energy physics | Best Researcher Award

University of Electronic Science and Technology of China | Yangtze Delta Region Institute (Quzhou) | China

Dr. Xiangling Tian is an accomplished Associate Researcher at the University of Electronic Science and Technology of China and the Yangtze Delta Region Institute (Quzhou). With a Ph.D. in Materials Science, his research focuses on optoelectronic devices, nanowire-based scintillators, and nonlinear optics. He has held research positions at prestigious institutions, including Zhejiang Laboratory and Nanyang Technological University in Singapore. His expertise lies in advanced photonic materials, smart medical imaging technologies, and optical properties of low-dimensional semiconductors. A dynamic and emerging figure in material sciences, Dr. Tian has made substantial contributions through high-impact research, international collaborations, and innovative technologies.

šŸ‘Øā€šŸŽ“Profile

ScopusĀ 

ORCID

šŸŽ“ Early Academic Pursuits

Dr. Tianā€™s academic journey began with a B.Sc. in Physics from Qufu Normal University, where he laid a solid foundation in theoretical and experimental physics. He earned his M.Sc. in Condensed Matter Physics at Zhejiang Normal University, focusing on mechanoluminescence. His academic ascent culminated in a Ph.D. in Materials Science from South China University of Technology (2015ā€“2018), under Prof. Jianrong Qiu, with a dissertation on optical nonlinearity in transition metal chalcogenides and bismuth oxyselenide. These formative years shaped his deep interest in photonic materials and advanced optical phenomena.

šŸ’¼ Professional Endeavors

Dr. Tian has undertaken several impactful research roles. At Nanyang Technological University, he explored multidimensional perovskites for high-performance light-emitting devices. As an Associate Researcher at Zhejiang Laboratory, he contributed to near-infrared materials and smart fibers. Since 2022, he has held a leading role at UESTC, where he conducts research, mentors young talent, and advances technology transfer initiatives. His professional work demonstrates a balance of scientific leadership, project execution, and collaborative innovation across interdisciplinary domains, particularly in optoelectronics, nanomaterials, and biomedical imaging.

šŸ”¬ Contributions and Research Focus

Dr. Tian’s research centers on smart medical imaging devices, high-resolution scintillators, and nonlinear optical materials. He is the Principal Investigator (PI) of several key national and regional projects, including those on DBR lasers, nanowire waveguides, and perovskite quantum dots. His interdisciplinary work connects materials science, photonics, and device engineering, with applications ranging from X-ray imaging to NIR spectroscopy. He is also advancing flexible scintillators and artificial muscle fibers, reflecting his interest in next-generation wearable and biomedical technologies. His research not only expands scientific knowledge but also drives real-world innovations.

šŸŒ Impact and Influence

Dr. Tianā€™s work has made significant academic and societal impacts. His research outcomes have enhanced the performance of medical imaging systems, contributed to green optoelectronics, and led to highly cited publications in journals like Advanced Optical Materials and ACS Applied Materials & Interfaces. He actively contributes as a peer reviewer for top journals and has helped organize international conferences, demonstrating his influence in the global scientific community. His innovations in nonlinear optics and nanowire-based scintillators are gaining attention across photonics and materials science sectors, showcasing his growing influence as a thought leader.

šŸ“š Academic Cites

Dr. Tian has published over 15 journal articles, including first-author and corresponding-author papers in SCI-indexed journals such as Nanoscale, Ceramics International, and Journal of Materials Chemistry C. His works are increasingly cited by peers in fields spanning photonics, optics, materials science, and biomedical engineering. He has also co-authored a Springer book and contributed to book chapters, further expanding his academic footprint. With multiple ongoing projects funded by NSFC, his publications continue to influence emerging research on scintillation, laser technologies, and nonlinear optical phenomena.

šŸ› ļø Research Skills

Dr. Tian possesses strong interdisciplinary and technical proficiencies. His laboratory expertise includes TEM, SEM, AFM, XRD, and FTIR, while his computational toolkit covers MATLAB, Python, and data analysis for photonic simulations. He excels in nanomaterial synthesis, glass ceramics, and quantum dot engineering, particularly for light emission and imaging applications. His hands-on ability in fabrication and characterization supports the development of cutting-edge optical devices. With excellent project management and proposal writing experience, he is a complete researcher bridging lab-based innovation and practical device application.

šŸ‘©ā€šŸ« Teaching Experience

While primarily research-focused, Dr. Tian is actively involved in talent cultivation through mentorship and research supervision. At UESTC, he engages with graduate students and junior researchers, providing guidance on project design, experimentation, and publication. His academic mentoring is supported by his international exposure and practical lab skills. Though formal teaching roles are less emphasized in his profile, his impact on training future scientists through hands-on instruction and project leadership is evident, especially in high-tech fields like nanophotonics and bioimaging materials.

šŸ† Awards and Honors

Dr. Tianā€™s excellence has been recognized through several prestigious awards. He won the Zhejiang Provincial Natural Science Award (Second Prize) for his work on low-dimensional semiconductors and photonic applications. He was a Finalist in the Yuanchuang Cup Innovation Competition for designing a bionic compound eye system. Additionally, he received the Outstanding Ph.D. Dissertation Award and was named an Outstanding Graduate Student in Guangdong. These honors underscore his scientific creativity, innovation, and leadership within the academic and applied research communities.

šŸš€ Legacy and Future Contributions

Looking ahead, Dr. Tian aims to drive advancements in high-performance biomedical imaging, flexible photonic devices, and quantum optoelectronics. His legacy will likely include bridging fundamental research with translational technologies, impacting healthcare, defense, and energy sectors. By mentoring young scientists and leading collaborative research efforts, he is shaping a sustainable and inclusive scientific culture. With his robust publication record, research funding success, and international outlook, Dr. Tian is poised to make lasting contributions as a visionary leader in materials science and photonics innovation.

Top Noted Publications

High-temperature X-ray Time-lapse Imaging Based on the Improved Scintillating Performance of Naā‚…Luā‚‰Fā‚ƒā‚‚:TbĀ³āŗ Glass Ceramics

  • Authors: Rongfei Wei*, Ying Chen, Li Wang, Junwei Pan, Xiangling Tian*, Fangfang Hu, and Hai Guo*

  • Journal: Advanced Optical Materials

  • Year: 2025

Improved broadband luminescence in Gdā‚‚GaSbā‚ā‚‹ā‚“Taā‚“Oā‚‡:CrĀ³āŗ,YbĀ³āŗ pyrochlore phosphors: Near-infrared spectroscopic applications and dual-mode optical thermometry

  • Authors: Ligan Ma, Rongfei Wei*, Qingqing Yu, Peican Dai, Xiangling TianāŽāŽ, Fangfang Hu, Hai Guo***

  • Journal: Materials Today Chemistry

  • Year: 2024

Enhanced scintillating performance in TbĀ³āŗ doped oxyfluoride glass for high-resolution X-ray imaging

  • Authors: Lanjiao Li, Rongfei Wei*, Li Wang, Xiangling TianāŽāŽ, Xiaoman Li, Fangfang Hu, Hai Guo***

  • Journal: Ceramics International

  • Year: 2024

Achieving an Improved NIR Performance of Caā‚„ā‚‹ā‚“Scā‚‚ā‚“Zrā‚ā‚‹ā‚“Geā‚ƒOā‚ā‚‚:CrĀ³āŗ via [ScĀ³āŗ-ScĀ³āŗ] ā†’ [CaĀ²āŗ-Zrā“āŗ]

  • Authors: Ying Chen, Rongfei Wei*, Lanjiao Li, Xiangling Tian*, Fangfang Hu, and Hai Guo*

  • Journal: Inorganic Chemistry

  • Year: 2024

Enhanced thermal stability of broadband NIR phosphors Caā‚ƒ.ā‚ƒMgā‚€.ā‚‡ZrGeā‚ƒOā‚ā‚‚:CrĀ³āŗ for pc-LEDs

  • Authors: Lanjiao Li, Ying Chen, Rongfei Wei*, Siyu Guo, Xiangling Tian*, Fangfang Hu, Hai Guo*

  • Journal: Journal of Alloys and Compounds

  • Year: 2025

 

 

 

Jie Fan | Electroweak Physics | Best Researcher Award

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Assoc. Prof. Dr. Jie Fan | Electroweak Physics | Best Researcher Award

Associate Researcher at Changchun University of Science and TechnologyĀ  | China

Dr. Jie Fan is an Associate Researcher, Doctoral Supervisor, and Research Teacher at Changchun University of Science and Technology. Recognized as a High-Level D Talent in Jilin Province, Dr. Fan is a rising force in the field of semiconductor laser technology. With more than 30 academic publications and involvement in innovative laser device development, Dr. Fan is carving a significant niche in optoelectronic device research.

šŸ‘Øā€šŸŽ“Profile

Scopus

šŸŽ“ Early Academic Pursuits

Dr. Fan pursued advanced studies in semiconductor optoelectronics, laying a robust academic foundation in laser device physics and engineering. The academic journey was defined by an early focus on semiconductor light sources and beam quality enhancement, which later evolved into targeted, high-impact research directions.

šŸ’¼ Professional Endeavors

Currently serving at the Changchun University of Science and Technology, Dr. Fan has taken on multiple roles including research leader, doctoral mentor, and project investigator. Leading 9 scientific research projects showcases not only scientific depth but also the ability to manage complex, long-term research efforts effectively.

šŸ”¬ Contributions and Research Focus

Dr. Fanā€™s core research revolves around high-power and high beam quality semiconductor laser technology. A standout contribution is the monolithic integration of DBR master oscillator and tapered power amplifier (MOPA) structure, enabling lasers with enhanced beam quality and peak power. Another key innovation is the development of dual-wavelength semiconductor laser devices using double Bragg grating diffraction feedback, achieving stable dual-output modes. Furthermore, Dr. Fan has addressed the challenge of transverse multi-lobe output in high-power lasers, enhancing near-fundamental mode performanceā€”a vital step for real-world applications.

šŸŒ Impact and Influence

Despite a currently low citation index (1), the originality and applied relevance of Dr. Fanā€™s work present strong potential for future academic and industrial impact. The submission of 8 additional patents underlines continuous innovation and the intention to bridge research with practical solutions in optoelectronics.

šŸ“š Academic Citations

With 27 SCI/Scopus-indexed journal articles, including contributions to Optics Letters and Optics Communications, Dr. Fan has made substantial efforts in academic dissemination. While the current citation index reflects early-stage impact, the volume and quality of publications indicate strong groundwork for rising academic influence.

šŸ§  Research Skills

Dr. Fan brings expertise in semiconductor laser modeling, structural integration, diffraction feedback design, and device fabrication. The ability to move from conceptual design to physical realization of complex laser systems showcases a rare combination of theoretical insight and experimental skill.

šŸ‘Øā€šŸ« Teaching Experience

As a doctoral supervisor, Dr. Fan is deeply involved in mentoring graduate students and guiding cutting-edge research topics. The integration of teaching and research helps foster a new generation of optoelectronics researchers equipped with both academic rigor and applied skills.

šŸ† Awards and Honors

Dr. Fan is listed among the High-Level D Talents in Jilin Province, recognizing his scientific excellence and research leadership. This designation is a testament to his growing status as a key contributor in Chinaā€™s advanced optoelectronics research landscape.

šŸ§¬ Legacy and Future Contributions

Looking ahead, Dr. Fan is poised to further influence the semiconductor laser industry through scalable device designs and collaborative innovation. While more visibility through citations, industry partnerships, and global collaboration will enhance his profile, the foundational research already promises a lasting legacy in high-performance laser device engineering.

Publications Top Notes

Research on the Asymmetric Phase-Shift Laterally-Coupled DFB Semiconductor Lasers with High Single Longitudinal Mode Yield

  • Authors: Zhang, Naiyu; Qiu, Bocang; Zou, Yonggang; Li, Qingmin; Ma, Xiaohui
    Journal: Optics Express
    Year: 2025

Study on Mode Characteristics of Supersymmetric Transversally Coupled Array Semiconductor Lasers

  • Authors: Wang, Zelong; Fan, Jie; Zou, Yonggang; Li, Yan; Ma, Xiaohui
    Journal: Optics Communications
    Year: 2025

Thermal Characteristics Analysis of Multi-Material Composite Heat Sink Structure Based on VCSEL Array

  • Authors: Wang, Chenxin; Zou, Yonggang; Fan, Jie; Song, Yingmin; Liang, Hongjin
    Journal: Laser and Optoelectronics Progress
    Year: 2025

Near 1050 nm Laterally Coupled DFB Laser with Tightened-Ridge-Waveguide for Improving Grating Coupling Capability and Controlling Lateral Modes

  • Authors: Hou, Huilong; Fan, Jie; Fu, Xiyao; Zou, Yonggang; Ma, Xiaohui
    Journal: Optics Letters
    Year: 2025

Dual-Wavelength Composite Grating Semiconductor Laser for Raman Detection

  • Authors: Huang, Zhuoer; Zou, Yonggang; Fu, Xiyao; Wang, Xiaozhuo; Cheng, Biyao
    Journal: Optics and Laser Technology
    Year: 2025

 

 

Valeriu Savu | High energy physics | Best Researcher Award

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Dr. Valeriu Savu | High energy physics | Best Researcher Award

INOE2000 | Romania

Valeriu Savu is a highly accomplished Technological Development Engineer with an extensive career spanning over 35 years. Currently working at the National Institute of Research and Development for Optoelectronics (INOE2000) in Măgurele, Romania, Savu has demonstrated significant expertise in research and development of electronic modules and optical equipment. His work primarily revolves around lasers, optical fibers, and nanotechnology, and his contributions have been instrumental in advancing applications within telecommunications and military systems.

šŸ‘Øā€šŸŽ“Profile

Google scholar

Scopus

ORCID

Early Academic Pursuits šŸŽ“

Savuā€™s academic journey began at the Polytechnic Institute of Bucharest, where he obtained a Bachelor’s degree in Electronics and Telecommunications in 1986. Later, he pursued a Master’s degree in Nanostructures and Unconventional Engineering Processes at the Polytechnic University of Bucharest (2012-2014). This was followed by the completion of his PhD in Engineering Sciences in 2007-2014 with a thesis on radio pulse selection and processing. His doctoral work focused on cosmic ray detection, emphasizing advanced methodologies for high-precision data processing in complex environments like saline settings.

Professional Endeavors šŸ’¼

Savuā€™s professional career began in 1990 with the Research Design Institute of Electromechanics ICPEM, where he worked on military electronics systems. From 2000 to 2005, he served as an Engineer at Elettra Communications S.A., contributing to the telecommunications sector with an emphasis on testing and verification of military-grade equipment. Since 2005, Savu has been at INOE2000, leading the Department of Engineering Design and Technology, where he focuses on cutting-edge optical devices and laser systems. His experience spans across the creation of advanced lasers, fiber optics, and sensor technologies for both commercial and military applications.

Contributions and Research Focus šŸ”¬

Valeriu Savu has made notable contributions to several fields, including laser technology, optical fibers, and military electronics. He is an expert in the design, testing, and characterization of laser systems, photovoltaics, and nanostructured materials. One of his major research focuses includes Cherenkov radiation detection and the application of nanotechnology for optical sensing. Savu has been involved in the development of innovative sensors, including UV sensors for organic materials and high-voltage power supplies used in medical laser systems.

Impact and Influence šŸŒ

Savuā€™s work has significantly advanced the field of optoelectronics and has been applied in medical, military, and telecommunications sectors. He has also patented several devices, including laser protection systems and cosmic radiation detectors for specialized environments like salt mines. His innovative solutions continue to influence scientific research and engineering practices globally.

Academic Cites šŸ“š

Savuā€™s scholarly work has earned recognition within the academic community, with numerous scientific articles published in prominent journals. His research has appeared in the Romanian Journal of Physics, Romanian Journal of Biophysics, and other prestigious publications. He has contributed to international conferences and his research papers are frequently cited by peers. Notable academic publications include his studies on the Nd:YAG laser for microsurgical ophthalmology and breast tissue investigation using diffuse optical tomography.

Research Skills šŸ§‘ā€šŸ’»

Valeriu Savu is highly skilled in experimental research, device testing, and the design of optical systems. He has expertise in advanced signal processing, laser characterization, and system integration. Savuā€™s proficiency with software tools such as OrCAD, FabMaster, NI Multisim, and OriginLab has made him a highly versatile researcher, capable of modeling complex systems and optimizing experimental designs. His experience spans across lab-based investigations, field tests, and cross-disciplinary applications of advanced technologies.

Teaching Experience šŸ

While Savuā€™s career has been predominantly research-driven, his extensive academic background and technical expertise have made him a valuable contributor to teaching and training in the field of optoelectronics. He has actively mentored students at various stages of their careers, guiding them through engineering problems and sharing his knowledge of cutting-edge technologies. His role as a PhD advisor and involvement in academic projects has contributed to the development of future scientists and engineers in the optoelectronics field.

Awards and Honors šŸ†

Throughout his career, Savu has received various certificates and awards recognizing his contributions to both military and civilian applications. His innovative work has been acknowledged by organizations and research institutions, and he has earned several certificates of innovation for his unique designs and systems. Savuā€™s patents are a testament to his creative and practical contributions to optical technology and laser applications.

Legacy and Future Contributions šŸ”®

Savuā€™s extensive body of work leaves a lasting legacy in the field of optoelectronics, particularly in laser applications, telecommunications, and military technology. His ongoing work in cosmic radiation detectors and laser safety will likely influence future technological advancements in various sectors. As he continues to develop new systems and devices, his future contributions are expected to further shape the landscape of optical technology and engineering research.

Patents and Innovations šŸ’”

Valeriu Savuā€™s patents reflect his ingenuity and forward-thinking approach to technology. Some of his recent applications include systems for automated discharge protection in laser pumps and power supply disconnect systems. His patents focus on enhancing the safety and efficiency of electronic systems, laser devices, and telecommunications infrastructure, with an emphasis on providing innovative solutions for user protection and optimal performance in real-world applications.

Publications Top Notes

Power Dissipation Reduction System for Adjustable Power Supplies

  • Authors: V Savu, MI Rusu, D Savastru, D Manea
    Journal: Energies
    Year: 2025

Analysis of a high-power laser thermal phenomena induced onto a composite made UAV/drone in flight

  • Authors: D Savastru, V Savu, MI Rusu, M Tautan, A Stanciu
    Journal: Journal of Optoelectronics and Advanced Materials
    Year: 2024

Sampling the travel distance of a vehicle through an unconventional method for data acquisition

  • Authors: MI Rusu, V Savu, D Savastru, CH Gandescu, A Stan, DM Cotorobai
    Journal: Journal of Optoelectronics and Advanced Materials
    Year: 2023

Grating Optic Fiber Sensors Detection of Smart Polymer Composite Delamination

  • Authors: D Savastru, D Savastru, MI Rusu, M Tautan, V Savu, II Lancranjan
    Journal: Optics, Photonics and Lasers
    Year: 2023

Ellipsometric characterization of tungsten oxide thin films, before and after He plasma exposure

  • Authors: MI Rusu, Y Addab, C Martin, C Pardanaud, V Savu, II Lancranjan, …
    Journal: Optoelectronics and Advanced Materials-Rapid Communications
    Year: 2023