Summer Program Application

Summer Program in Nano Photonics

Optical Super Resolved Imaging and Fluorescent Microscopy For Outstanding  Graduate Students

Faculty of Engineering, Department of Electrical Engineering

The summer program of the Department of Electrical Engineering at the Faculty of Engineering allows graduate students to acquire an extensive academic experience in a vibrant social and cultural environment at Israel’s most advanced department of electrical engineering. The program centers around one core course carrying 4 academic credits.

Target audience and requirements
  • Bachelor’s degrees (BE, graduate in engineering, BArch, BTech, BSc) graduates
  • Potential for advanced studies (MSc. or Ph.D.) level
  • Required prior knowledge: Introduction to optics course (with final grade of at least 80)
  • CV including list of courses, syllabus and final grades and two recommendation letters must be applied
  • Good level of English (Ability to read and write)

Acceptance to each academic course is dependent on approval of prerequisites by Bar-Ilan.
Notice: Excellent graduate students (MSc, PhD) are invited to apply.


The Program will take place between  July 13th – August 6th 2020. 

Orientation day.

Super resolution techniques.

Nanoelectronic Device.

Advanced fluorescence techniques.

One day a week enriching contemporary Israeli studies visiting study tour.

Total: 104 academic hours, 4 credits.

Program Overview:

The field of super resolution relates to the effort of developing various approaches to exceed the limitations of existing imaging system without changing its optics or its detection array and while allowing resolving finer spatial details. In this course we aim to teach large variety of super resolving approaches presenting significant improvement in spatial resolving capabilities in the transversal as well as in the axial (extension in depth of focus) dimensions. The proposed approaches to be taught involve time multiplexing, space multiplexing, wavelength multiplexing, geometric super resolving concepts and others. The teaching of the super resolved concepts will include approaches relevant for remote sensing as well as approaches for near field imaging dealing also with fluorescent nanoscopy- PALM, STORM, STED and structured illumination microscope.

At the end of the course, each student need to give a short talk. During the morning (8-10 AM) 2 hours English course will prepare the students for this mission

Topic Covers include among others
  • Space bandwidth product adaptation technique
  • Optical super resolution exceeding the aperture limitation by usage of time, space, wavelength and angels multiplexing.
  • Near field optical super resolution.
  • Nanoparticles based nanoscopy.
  • Time-Domain and Frequency-Domain Lifetime Measurement (including hands-on Lab).
  • Fluorescence-Lifetime Imaging Microscopy and Anisotropy (including hands-on Lab).
  • Metal-Enhanced Fluorescence (including hands-on Lab).
  • Surface Plasmon-Coupled Emission.

All classes taught by Prof. Dror Fixler, and Prof. Zeev Zalevsky. Notice: Attendees should have some knowledge of fluorescence, typically in a specialized area.

Admissions & Cost

Tuition for the summer program is US$2400 and includes accommodation and lunch on-campus.

Applicants that will sign up through ONWARDS are eligible for a $1200 scholarship.

For excelling students arriving from China or India, a unique scholarship from the Israeli Council of Higher Education is available for the first 25 applicants admitted to the program, covering the majority of the program’s cost.

Payment will be requested at the time of application.

Summer Program Application

International School
Bar-Ilan University
Ramat-Gan, Israel 5290002

Tel: +972- 3-738-4245
Email for further information



Prof. Dror Fixler

Prof. Dror Fixler is a member of the Nano Photonics Center at the Institute of Nanotechnology and Advanced Materials (BINA), and a Lecturer at the Faculty of Engineering.

Fixler is a BIU-educated expert in electro-optics and photonics research including the emission, transmission, detection and sensing of light for biomedical properties. His primary foci are developing new technologies for super resolution microscopy, medical testing, and communications networks.

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