Linh Nguyen is a research fellow with the Future Industries Institutes at UniSa. Before joining UniSA he has spent times at Edith Cowan University and the University of Adelaide, holding positions as a Research fellow, an ARC SuperScience Fellow, a co-Chief Investigator and node leader for a project from the CRC for Plant Biosecurity, the lead optical scientist for an industrial project contracted by a global multinational corporation, a researcher and co-chief investigator for a project supported by the Airforce Office for Scientific Research (USA) and most recently researcher and co-chief investigator for a major project supported by the Defence Science and Technology Group (phase 1: Next Generation Technologies Fund, phase 2: Advanced... Read more
About me
Linh Nguyen is a research fellow with the Future Industries Institutes at UniSa. Before joining UniSA he has spent times at Edith Cowan University and the University of Adelaide, holding positions as a Research fellow, an ARC SuperScience Fellow, a co-Chief Investigator and node leader for a project from the CRC for Plant Biosecurity, the lead optical scientist for an industrial project contracted by a global multinational corporation, a researcher and co-chief investigator for a project supported by the Airforce Office for Scientific Research (USA) and most recently researcher and co-chief investigator for a major project supported by the Defence Science and Technology Group (phase 1: Next Generation Technologies Fund, phase 2: Advanced Strategic Capabilities Accelerator). He has published more than 60 peer reviewed papers in international journals and conference proceedings attracting more than 2000 citations, h-index = 25 (Google citation). Research projects in which he has been involved with in major capacity (either a named fellow, a named chief investigator or a lead researcher) have totalled nearly 6 millions dollars to date. His research interest is in photonics and optical science in general, with a particular focus on optical sensing, and most recently light transport through multimode waveguide system and machine learning assisted photonics.
About me
Doctor of Phiosophy Gwangju Institue of Science and Technology
Research
Excludes commercial-in-confidence projects.
MHI - Two phase flow measurement - fibre Bragg grating (FBG) approach, Mitsubishi Heavy Industries Ltd, 28/03/2023 - 31/08/2023
Research
Research outputs for the last seven years are shown below. Some long-standing staff members may have older outputs included. To see earlier years visit ORCID or Scopus
Open access indicates that an output is open access.
Year | Output |
---|---|
2024 |
Open access
5
|
2024 |
|
2024 |
Open access
|
2024 |
Open access
1
|
2024 |
1
|
2024 |
Open access
|
2024 |
|
2023 |
Open access
4
192
|
2023 |
Open access
15
7
1
|
2023 |
2
|
2023 |
Open access
|
2023 |
Open access
9
|
2022 |
Open access
41
40
1
|
2022 |
Open access
60
53
|
2022 |
4
3
|
2022 |
Open access
9
9
|
2022 |
Open access
25
19
|
Year | Output |
---|---|
2023 |
|
2022 |
|
2022 |
Open access
|
2022 |
Open access
|
2019 |
Open access
3
4
|
2018 |
1
|
External engagement & recognition
Organisation | Country |
---|---|
ARC Centre of Excellence for Gravitational Wave Discovery | AUSTRALIA |
Coherent (United States) | UNITED STATES |
Defence Science and Technology Group | AUSTRALIA |
Leibniz Institute of Photonic Technology | GERMANY |
North-Eastern University | THAILAND |
Northeastern University (China) | CHINA |
South Australian Research and Development Institute (SARDI) | AUSTRALIA |
University of Adelaide | AUSTRALIA |
University of South Australia | AUSTRALIA |
Yale University | UNITED STATES |