Teaching

• PCS-230, Photonics and Optical Devices (Undergrad)
• PCS-213, Physics: Light and Modern Physics Undergrad)
• PCS-623, Biostatistics (Undergrad)
• PCS-125, Physics: Waves and Fields (Undergrad)
•  (google sheet) BP-8101, Stats for the Health Sciences (external link, opens in new window)  (Graduate)
• BP-8108, Special Topics I (Graduate) 
• BP8119, BIOCLINICAL OPTICS AND BIOPHOTONICS (opens in new window)  (Graduate)

Teaching (Curriculum, Audience, Contact Hours, FS: Fall Semester, WS: Winter Term, SS: Summer Term)

Undergraduate Courses

1. Biostatistics, for the 3d year Physics and Engineering, PCS 623 (opens in new window) , TMU.(3h/week+2h/week (tutorial), 12 weeks), (FS18, FS19, FS20, FS23)
2. Light and Modern Physics for 2nd year Physics and Engineering, PCS 213 (opens in new window) , TMU (3h/week+3h/week (lab), 12 weeks), (FS15, FS16, SS17, FS17, FS18, SS21, SS22, FS23)
3. Biophysics for 3d year Physics and Engineering, PCS 227, TMU (3h/week, 12 weeks), (WS16)
4. Waves and Fields for 1st year Physics and Engineers, PCS 125, TMU, (3h/week+3h/week (lab), 12 weeks), (WS14, WS15, WS17, WS20, WS21, WS22)
5. Optics and Photonic Devices for 2nd year Physics and Engineering, PCS 230 (opens in new window) ,, TMU (3h/week+3h/week (lab), 12 weeks), (WS12-17, WS20)
6. Physics in the News, for 1st year Introductory, PCS 111 (opens in new window) , TMU, (2h/week, 12 weeks), (FS15, FS16, FS17, FS18, FS21, FS22)
7. Introduction to Medical Physics for 2nd year Engineering, BME 229, TMU, (3h/week, 13 weeks), (FS14)
8. Radiation Therapy Devices for 2nd year Engineering, BME 704 (opens in new window) , TMU, 3h/week, 13 weeks), (FS12)

Graduate Courses

1. Medical Statistics BP8101 (3h/week, 12 weeks, SS18, W20)
2. Biophotonics Graduate Course BP8108, TMU (6h/week, 6 weeks), (SS14, SS16, FS18, F20)
3. Biophotonics for Biomedical Engineering, Montpellier University, France (12h, 1 week), (FS15)
4. Fundamentals of Biophotonics (6h/week, 6 weeks), (SS08, SS09, SS10, SS11), FAU, Germany
5. Photodynamic Therapy and Fluorescence Diagnostics, for Electrical and Biomedical Engineering, National Research Nuclear University (MEPhI), Moscow, Russia (8h, 1 week) (WS 2015)
6. Advanced Biophotonics (6h/week, 6weeks), (WS 9-10, WS10-11, WS11-12), FAU, Germany
7. Remote driving and diagnostics in education and Medicine (35 h course and practicum, 1 week, WS14), SAOT Winter Academy, FAU, Oberhof, Germany
8. Theoretical Nanobiophotonics, DDSCAT simulation (35 h course and practicum, 1 week, SS12, SAOT Summer Academy, Nice, France
9. Microendiscopy and spatially resolved biospectroscopy, (6h, 1 week), Kagoshima University, Japan, April-May 2012
10. Super resolution and remote imaging (35 h course and practicum, 1 week, WS12), SAOT Winter Academy, Hintertux, Austria
11. Monte-Carlo simulation in light diagnostics and therapy (35 h course and practicum, 1 week, SS10), SAOT Summer Academy, Cologne, Germany
12. Advanced Imaging in Biophotonics (35 h course and practicum, 1 week, SS09), SAOT Summer Academy, Rostock, Germany

Production and use of teaching and learning materials

• For all the courses that I developed and provided online quizzes/i-clickers, tutorials, original problems, exams, demos on-line and designed models for physical demonstrations – Physical Theatre.
• I developed a prototype for enhancement of the “lecturer-students” communication model via development of an interactively operated projection system equipped with gesture and voice recognition based on my research project where students were engaged to create a hardware-software optical system for educational purposes. A demo can be watched here: https://www.youtube.com/watch?edit=vd&v=RBJQDfOZwNg (external link) 

Solely developed

1. Medical Statistics (graduate course (36 hours of lectures)
2. Optics and Photonic Devices for 2nd year Physics and Engineering (36 hours of lectures, 12 hours of tutorials, 18 hours of labs)
3. Fundamentals of Biophotonics graduate course (36 hours of lectures and 15 hours of experimental/simulation labs)
4. Advanced Biophotonics graduate course (36 hours of lectures and 15 hours of experimental/simulation labs)
5. Micro-endoscopy and spatially resolved bio-spectroscopy, (6h, 1 week), Kagoshima University, Japan, April-May 2012

Developed in cooperation (~50% contribution)

1. Remote driving and diagnostics in education and Medicine (35 h course and practicum, 1 week, WS14), SAOT Winter Academy, FAU, Oberhof, Germany, co-developed with Prof. Zeev Zalevsky (Bar-Ilan University, Israel)
2. Theoretical Nanobiophotonics, DDSCAT simulation (35 h course and practicum, 1 week, SS12, SAOT Summer Academy, Nice, France, co-developed with Prof. Zeev Zalevsky (Bar-Ilan University, Israel)
3. Microendoscopy and spatially resolved biospectroscopy, (6h, 1 week), Kagoshima University, Japan, April-May 2012
4. Super resolution and remote imaging (35 h course and practicum, 1 week, WS12), SAOT Winter Academy, Hintertux, Austria, co-developed with Prof. Zeev Zalevsky (Bar-Ilan University, Israel)
5. Monte-Carlo simulation in light diagnostics and therapy (35 h course and practicum, 1 week, SS10), SAOT Summer Academy, Cologne, Germany, co-developed with Prof. Scott Prahl (Oregon University, USA)
6. Advanced Imaging in Biophotonics (35 h course and practicum, 1 week, SS09), SAOT Summer Academy, Rostock, Germany, co-developed with Prof. Eckhart Hahn (FAU, Germany)