FR-2024-004
Location
France
Internship type
ON-SITE
Reference number
FR-2024-004
General discipline
PHYSICS
Completed Years of Study
4
Fields of Study
7
Languages
French Good (B1, B2)
English Good (B1, B2)
Required Knowledge and Experience
-
Other Requirements
Self-motivation and enthusiasm
Duration
26 - 26 Weeks
Within These Dates
15.09.2024 - 10.04.2025
Holidays
NONE
Work Environment
-
Gross pay
700 EUR / month
Working Hours
35.0 per week / 7.0 per day
Type of Accommoditation
Student with the strong help of IAESTE France
Cost of lodging
450 EUR / month
Cost of living
700 EUR / month
Additional Info
- Please don't forget the enrolment certificate in the nomination, with a precise end date of the certificate (Month + Year) which should be later than the desired end date of internship.- Each student can ask for a financial help for accommodation of 70-130 € to the French administration (APL from CAF).- You can get in touch with your school if you are eligible to any Erasmus funding or other grants (from 410€ to 690€). Please visit https://www.aide-sociale.fr/bourse-europeenne-erasmus/ and https://erasmus-plus.ec.europa.eu/opportunities/opportunities-for-individuals/students/traineeships-for-students-abroad
Work description
- Establish a simulation model for the electro-optical chain, based on already existing components, in collaboration with the different experts (CMOS, OLED, Color filter, Test),- Validate the model using existing data from microdisplay production,- Use the model to support ongoing development of new OLED stacksLight Extraction enhancement in OLED microdisplaysOur microdisplays are based on Organic Light Emitting Diodes (OLED) on CMOS. In order to enhance luminous efficiency and brightness of the OLED stack, the goal is to study the improvement that can be obtained by integrating optical arrays like e.g., micro lenses.Missions :- establish a simulation model for the emission of the system OLED plus optical array based on Setos for the OLED and Zemax for the optical simulation- validate the model using existing samples with microlens arrays- study different designs in terms of lens shape, optical parameters, pixel layout etc.
Deadline
22.09.2024