Dr. Italo Toselli
Senior Scientist at Fraunhofer IOSB
SPIE Involvement:
Conference Program Committee | Author | Instructor
Area of Expertise:
optical turbulence , optics and photonics , laser propagation in random media , adaptive optics , laser beam propagation in tissue , underwater laser beam propagation
Profile Summary

Dr. Italo Toselli is a senior scientist at Fraunhofer IOSB and the founding member of TurbOttica LLC. He has received his M.Sc. degree (2002) in Electronics Engineering from La Sapienza University (Italy) and his postgraduate Master in Information Technology (2002) from Cefriel-Politecnico di Milano (Italy) followed by his Ph.D. (2008) in Electronics and Communication Engineering from Politecnico di Torino (Italy). Before starting his Ph.D., he joined the Italian Navy as an Officer. During his Ph.D., he spent more than two years at the University of Central Florida, Orlando, working with Profs. Larry C. Andrews and Ronald L. Phillips. From January 2010 to October 2011 he held a National Research Council postdoctoral award at the Department of Mechanical and Aerospace Engineering, Naval Postgraduate School, Monterey, California. From September 2013 to June 2014 he was an ERCIM Marie Curie Fellow at the same institute where he is currently employed (Fraunhofer IOSB). From June 2014 to May 2017 he was a researcher at the Department of Physics at the University of Miami, Florida, before eventually re-joining Fraunhofer IOSB. Dr. Toselli co-authored many journal and proceeding papers focused on laser beam propagation through random media and he is a reviewer of main journals in optics and atmospheric propagation. He has served as invited speaker at SPIE and OSA conferences. He is a Senior member of Optica, a Senior member of SPIE and a Committee member of main conferences in his field.
Publications (22)

Proceedings Article | 19 November 2024 Presentation + Paper
Proceedings Volume 13194, 131940I (2024) https://doi.org/10.1117/12.3032428
KEYWORDS: Gaussian beams, Telecommunications, Signal to noise ratio, Atmospheric turbulence

SPIE Journal Paper | 9 January 2024 Open Access
OE, Vol. 63, Issue 04, 041208, (January 2024) https://doi.org/10.1117/12.10.1117/1.OE.63.4.041208
KEYWORDS: Turbulence, Receivers, Atmospheric optics, Collimation, Diffraction, Transmitters, Sensors, Spherical lenses, Near field optics, Optical engineering

Proceedings Article | 19 October 2023 Presentation + Paper
Proceedings Volume 12731, 127310P (2023) https://doi.org/10.1117/12.2675920
KEYWORDS: Receivers, Turbulence, Collimation, Transmitters, Diffraction, Gaussian beams, Spherical lenses, Near field, Optical fibers, Free space optical communications

Proceedings Article | 26 October 2022 Presentation + Paper
Proceedings Volume 12266, 122660A (2022) https://doi.org/10.1117/12.2636413
KEYWORDS: Adaptive optics, Wavefronts, Signal to noise ratio, Laser communications, Atmospheric turbulence

Proceedings Article | 4 October 2022 Presentation + Paper
Proceedings Volume 12239, 1223908 (2022) https://doi.org/10.1117/12.2632042
KEYWORDS: Adaptive optics, Laser systems engineering, Wave propagation, Atmospheric propagation, Zernike polynomials

Showing 5 of 22 publications
Conference Committee Involvement (7)
Environmental Effects on Light Propagation and Adaptive Systems VII
18 September 2024 | Edinburgh, United Kingdom
Environmental Effects on Light Propagation and Adaptive Systems VI
5 September 2023 | Amsterdam, Netherlands
Unconventional Imaging, Sensing, and Adaptive Optics 2023
21 August 2023 | San Diego, California, United States
Environmental Effects on Light Propagation and Adaptive Systems V
6 September 2022 | Berlin, Germany
Unconventional Imaging and Adaptive Optics 2022
23 August 2022 | San Diego, California, United States
Showing 5 of 7 Conference Committees
Course Instructor
SC1327: Optical Turbulence and Laser Beam Propagation
Optical turbulence is of interest for several applications involving laser beam propagation through the atmosphere and ocean. This course is organized in a simple and modular manner with the goal to make optical turbulence understandable to anyone with some basic knowledge in random process, wave propagation and optics. The course covers a wide range of topics from the theory of Kolmogorov and the Rytov method to main applications such as free space optical communication, underwater communications and laser radar and imaging. Students, engineers and scientists interested in free space optics and imaging will benefit from taking this course.
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