Prof. Joseph Rosen

Recruiting Graduate Students

Full Professor

חבר/ת סגל אקדמי בכיר

Faculty of Engineering Sciences, School of Electrical and Computer Engineering
33 - Zlotowski (Electrical Engineering) Building Floor 3 Room 308, Marcus Campus
- Wednesday 17:00-18:00
08-647-7150

rosenj@bgu.ac.il

About

Rosen's work focuses on Digital and Computational Optics, Holography, and Optical Imaging. He became known for his contributions to the technology of incoherent digital holography. In 2007, he co-invented the Fresnel Incoherent Correlation Holography (FINCH), a new method of recording digital holograms of targets illuminated by white light. In 2017, he co-invented the interferenceless Coded Aperture Correlation Holography (I-COACH), a new way of recording digital holograms without wave interference. FINCH and I-COACH are used for three-dimensional imaging of general three-dimensional objects observed from a single viewpoint using a single camera shot. In 2018, Rosen co-invented an image reconstruction method called non-linear reconstruction, which has now become one of the widely used methods in coded aperture imaging and incoherent holography. In 2019, Rosen and his PhD candidate Angika Bulbul introduced a method of using the partial aperture area of a lens to obtain a similar image resolution to the full aperture area. This can save cost, time, and material needed for space telescopes. In 2022, the non-linear reconstruction method co-invented by Rosen was combined with the well-known deconvolution method Lucy-Richardson algorithm, to create the Lucy-Richardson-Rosen algorithm. The Lucy-Richardson-Rosen algorithm exhibited a significantly improved performance in convergence and estimation of the solution compared to the Lucy-Richardson algorithm. The Lucy-Richardson-Rosen algorithm was initially demonstrated to deconvolve blurred mid-infrared images obtained from the micro-spectroscopy system of the Australian synchrotron. Later, it exhibited good deconvolution for spatially symmetric point spread functions. Prof. Rosen has authored over 340 scientific publications, including three books and 16 patents

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Courses

Holography and Diffractive Optics - Graduate School

Statistical Optics - Graduate School

Advanced Topics in Optical Imaging?Graduate School

Fourier optics (formerly Optical Computing) ? Fourth-year elective undergraduate

Introduction to Photoelectronics ? 3rd-year core undergraduate

Introduction to Electrical Engineering: 1st-year compulsory undergraduate

Publications

Digital spatially incoherent Fresnel holography
J Rosen, G Brooker
Optics Letters 32 (8), 912-914, 2007

Non-scanning motionless fluorescence three-dimensional holographic microscopy
J Rosen, G Brooker
Nature Photonics 2 (3), 190-195, 2008

Roadmap on digital holography
B Javidi, A Carnicer, A Anand, G Barbastathis, W Chen, P Ferraro et al.
Optics Express 29 (22), 35078-35118, 2021

Recent advances in self-interference incoherent digital holography
J Rosen, A Vijayakumar, M Kumar, MR Rai, R Kelner, Y Kashter, A Bulbul, et al.
Advances in Optics and Photonics 11 (1), 1-66, 2019

Theoretical and experimental demonstration of resolution beyond the Rayleigh limit by FINCH fluorescence microscopic imaging
J Rosen, N Siegel, G Brooker
Optics Express 19 (27), 26249-26268, 2011

Coded aperture correlation holography?a new type of incoherent digital holograms
A Vijayakumar, Y Kashter, R Kelner, J Rosen
Optics Express 24 (11), 12430-12441, 2016

Interferenceless coded aperture correlation holography?a new technique for recording incoherent digital holograms without two-wave interference
A Vijayakumar, J Rosen
Optics Express 25 (12), 13883-13896, 2017

Optimal resolution in Fresnel incoherent correlation holographic fluorescence microscopy
G Brooker, N Siegel, V Wang, J Rosen
Optics Express 19 (6), 5047-5062, 2011

Fluorescence incoherent color holography
J Rosen, G Brooker
Optics Express 15 (5), 2244-2250, 2007

Review of three-dimensional holographic imaging by multiple-viewpoint-projection based methods
N.T. Shaked, B Katz, J Rosen
Applied optics 48 (34), H120-H136, 2009

Non-linear adaptive three-dimensional imaging with interferenceless coded aperture correlation holography (I-COACH)
M.R. Rai, A Vijayakumar, J Rosen
Optics Express 26 (14), 18143-18154, 2018