Zhu Ruixue


Doctoral Student, M.Sc.(Phys.), B.Sc.(Phys.)

Education and degrees awarded                                                                               

2017-present   Doctoral student, Optoelectronics and Measurement Techniques Unit, University of Oulu, Oulu, Finland (Major Subject: Biophotonics)
2017   Master of Science in Physics, The School of Mathematics and Physics, China University of Geosciences, Wuhan, P.R. China (Major Subject: Photoelectric Detection and Control Technology)
2014   Bachelor of Science in Physics, The School of Mathematics and Physics, China University of Geosciences, Wuhan, P.R. China (Major Subject: Optical Information Science and Technology)


Other education and training, qualifications and skills                                                                           

2018   The OSA Foundation Siegman International School on Lasers 2018 hosted by the Technical University Denmark on the Island of Hven, Backafallsbyn, Sweden


Previous work and experience                                                                           

2014-2015   Teaching Assistant, the School of Mathematics and Physics, China University of Geosciences
2014-2015   Assistant Class Adviser for New College Students, the School of Mathematics and Physics, China University of Geosciences


Linguistic skills                                                                           

Chinese – mother tongue, English – intermediate
Scientific achievements

Research projects                                                                         

10/2017-present, Optical tweezers as a non-invasive tool for revealing biophysical peculiarities of cells interaction in presence of nanomedical compounds (Chinese Government Scholarship 201706410089), Identity: doctoral student
2014-2017, Multidimensional Diagnosis and Stability Study of Reservoir Landslide Evolution Process (National Natural Science Foundation of China 41230637, 41472265), Identity: participant
2015-2016, Experimental Study on Optical Fiber Pressure Sensor (Open Fund of Teaching Laboratory of China University of Geosciences SKJ-2015200), Identity: Co-PI
2014-2015, Design and Test of Optical Fiber Communication and Sensing Experiments (Open Fund of Teaching Laboratory of China University of Geosciences SKJ-2014176), Identity: PI
2011-2013, Fiber Bragg Grating Accelerometer with Temperature Self-Compensation (Fundamental Research Funds for National University 1210491B11), Identity: PI


Honors and Awards                                                                       

2018   Travel Grant awarded by University of Oulu Graduate School
2017-2021   Chinese Government Scholarship awarded by Chinese Scholarship Council
2017   Outstanding Master’s Graduation Thesis
2014-2016   National Fist-Class Academic Scholarship for Graduate Student
2016   Diploma for “Outstanding Graduate Student Leader”
2015   Diploma for “Outstanding Graduate Student”
2014   Third Prize in 25th School of Mathematics and Physics Graduate Student Scientific Papers Report
2014   Outstanding Bachelor’s Graduation Thesis
2012   Third Prize in 23rd China University of Geosciences College Student Scientific Papers Report


List of selected publications                                                                       

1. Zhu, R., Jing, R., & Cheng, Y. (2017). Simulation and experimental studies of a double-fiber angular displacement sensor. Optics & Laser Technology, 89, 168-172.
2. Zhu, R., Jing, R., & Cheng, Y. (2017). Research of a reflective-optic angular displacement sensor with intensity compensation. Transducer and Microsystem Technologies, 36(6), 22-25. (In Chinese)
3. Lin, J., Cao, X., Zhu, R., Zhou, L., & Cheng, Y. (2017). Research progresses and developing trends of optical fiber grating pressure sensor. Optical Instruments, 39(1), 88-94. (In Chinese)
4. Lin, J., Cheng, Y., Cao, X., & Zhu, R. (2016). A fiber Bragg grating earth pressure sensor used for measuring soil pressure. CN205593685U. (Chinese Patent)
5. Zhu, R., Jing, R., Wang, X., & She, Z. (2013). Experimental study on cantilever beam structural fiber Bragg grating displacement sensor with temperature self-compensation. Electronic Technology (5), 76-78. (In Chinese)

Last updated: 15.10.2018