Recent Years Publication:
Vertical projects
|
The project name | funds | Time |
|---|---|---|---|
| 1 | Research on key technologies of 200W single crystal fiber single frequency continuous wave 1064nm laser |
50w,Outstanding Youth Incubation Program |
2022.01-2024.12 |
| 2 | Research on key technologies of LD pump single frequency continuous wave self-tuning emerald laser |
30w,National Natural Science Foundation of China Youth Science Foundation project |
2022.01—2024.12 |
| 3 | Research on key technologies for narrow linewidth ultraviolet lasers |
300w,Key R&D projects in Shanxi Province |
2022.01-2025.01 |
| 4 | Laser light source |
3500w,Shanxi Province science and technology major special projects |
2020.07-2022.07 |
| 5 | Laser R&D center
|
300w, The central government guides local science and technology development fund projects |
2020.07-2023.12 |
| 6 | Research on key technologies of single crystal fiber single frequency CW laser
|
59w, National Natural Science Foundation of China |
2019.06-2036.05 |
| 7 | Development of non-classical light sources for sub-audio segments
|
746.6w, National major scientific research instrument development project |
2021.01-2025.12 |
| 8 | Research on key technologies for unmodulated locked single-frequency continuous wave tunable titanium gem lasers
|
3w, Shanxi Provincial Applied Basic Research Program Youth Science and Technology Research Fund |
2019.09-2022.09 |
| 9 | Research on key devices of quantum information
|
100w, Shanxi Provincial Key R&D Program Project |
2019.07-2022.06 |
| 10 | Study on the detection system of compressed state light field of continuous variable of audio segment
|
21w, National Natural Science Foundation of China Youth Science and Technology Research Fund |
2019.07-2022.06 |
| 11 | Research on key technologies of high-energy and high-power low-noise single-frequency lasers
|
393w, Sub-project of the National Key Research and Development Program |
2017.07—2020.12 |
| 12 | High-power, all-solid-state tunable single-band blue lasers matched to atomic absorption lines
|
7w, National Natural Science Foundation of China |
2016.01-2019.12 |
| 13 | Development of non-classical light sources with high compression and entanglement
|
754w, National Key R&D Program |
2016.01-2018.12 |
| 14 | Study on the effect of nonlinear loss on the tuning characteristics of single-frequency titanium gem lasers
|
25w, National Natural Science Foundation of China Youth Science and Technology Research Fund |
2015.01-2017.12 |
| 15 | Frequency continuous scanning of the all solid state continuous single frequency titanium gemstone laser |
3w, Shanxi Provincial Natural Science Foundation Youth Science and Technology Research Fund |
2014.01-2016.12 |
| 16 | Coherent feedback control of ERP entangled state
|
2w, Shanxi Provincial University Science and Technology Innovation Project |
2013.07-2015.06 |
| 17 | China's second-generation satellite navigation system is a major project |
16w,Special research (Shanxi University is the third research party) |
2013.01-2016.12 |
| 18 | Development of a continuous variable quantum entangled light source prototype
|
290w, Special Fund of the National Natural Science Foundation of China |
2013.01-2016.12 |
| 19 | Single-frequency continuous 1064nm oscillation source developed
|
290w,Ministry of Science and Technology National Major Scientific Instruments and Equipment Development Special Project |
2011.10—2014.09 |
Horizontal projects
|
The project name | funds | Time |
|---|---|---|---|
| 1 | A single resonator enables 100-watt continuous single-frequency all-solid-state lasers |
50w Patent transformation |
2021.09.24 |
| 2 | Method for selecting the optimal length of the frequency-doubled crystal of a continuous-wave single-frequency inner chamber-doubling laser |
3w Patent transformation |
2020.11.23 |
| 3 | A device and method for measuring the absorption of heat load in the excited state within the laser gain crystal |
3w Patent transformation |
2020.11.23 |
| 4 | Design and development of V1.0 for control and monitoring systems for laser gas detection |
10w Research and development |
2020.06.22 |
| 5 | Laser methane sensor probe measurement algorithm development and embedded software development V1.0 |
5.2w Research and development |
2019.11.25 |
| 6 | Laser power stabilization device and method |
3w Patent transformation |
2019.04.03 |
| 7 | Laser methane sensor probe optical path design and detection circuit design V1.0 |
8w Research and development |
2018.09.03 |
| 8 | Type 355-I laser |
400w Patent transformation |
2018.04.20 |
| 9 | Continuously tunable single-frequency titanium gem laser |
9w Patent transformation |
2017.03.28 |
| 10 | A method for measuring linear loss in the cavity of an all-solid-state laser |
3w Patent transformation |
2016.06.11 |
Receive awards
|
Winners | Award-winning name | Time |
|---|---|---|---|
| 1 | Lu Huadong |
Won the honorary title of "Expert of Outstanding Contribution to the Rejuvenation of Science and Education in Shanxi Province" |
2021.09 |
| 2 | Lu Huadong, Su Jing, Li Fengqin, Zheng Yaohui, Zhang Kuanshou, Peng Kunchi |
First Prize of Shanxi Science and Technology Award |
2021.07 |
| 3 | Lu Huadong, Jin Pixian, Su Jing, Peng Kunchi |
Second Prize of Shanxi Patent Award |
2020.10 |
| 4 | Lu Huadong |
Selected as the 2018 Shanxi Province "Three Jin Talents" Support Program Young Outstanding Talents |
2019.03 |
