Department of  matter sciences

Program name: Master degree in applied physics

·   Level: Master of applied physics

• Domain: Matter Sciences
• Field: physics
• Specialty: Physics of Semiconductors and Electromagnetic Compatibility

1. Program Description:

The Research Master’s Program in Applied Physics provides scientific training in semiconductors and electromagnetic compatibility. This internship allows students, who wish to do so, to prepare a dissertation in semiconductor materials (specialization: Electronic Components and Very High Frequency).

  This Master aims to form

• Professors and researchers

• High level specialists in various design offices and industry

• In addition, the objectives of this master’s degree are to develop and move a center of excellence in electromagnetic compatibility and its applications in the field of research.

• Entry Requirements

Holders of a bachelor’s degree  in physics, electronics, electrical and automatic engineering, or holders of an equivalent diploma can join the applied master’s degree after studying by a specialized committee.

• Program Units and modules

Semester1

Teaching unit	Semester hourly volume	weekly hourly volume				Coefficients	Credits	evaluation method
								Continued examination	Exam
	14-16 weeks	C	T	PW	Autres*
TU Fundamental						8	18
FTU1
Micro-waves Very High Frequency	60	1.5	1.5	1	4	3	6	33%		67%
Signal processing: foundations and applications	45	1.5	1.5		4	3	6	33%		67%
FTU2
Physics of semiconductor devices	45	1.5	1.5		3	2	6	33%		67%
TU Methodology						4	9
MTU1
Numerical modeling1	45	1.5	1.5	1.5	3	2	5	50%		50%
MTU2
Programmation Matlab1	45	1.5		1.5	3	2	4	50%		50%
TU Discovery						1	1
DTU
Insulating materials and high voltage	45	1.5	1.5		2	1	1	50%		50%
Transversal TU						1	2
TUT
English for research	20	1.5			3	1	2			100%
total semester1	305	12	7.5	2.5	22	14	30

Other*: additional work with a semi-annual consultation.

Semester  2

Teaching unit	Semester hourly volume	weekly hourly volume				Coefficients	Credits	evaluation method
								Continued Examination	Exam
	14-16 weeks	C	T	PW	Autres*
TU Fundamental						8	18
FTU1
Electromagnetism, lines	45	1.5	1.5		3	3	6	33%		67%
Analog electronics	60	1.5	1.5	1	3	3	6	33%		67%
Digital electronics and acquisition	45	1.5	1.5		3	2	6	33%		67%
TU Methodology						4	9
MTU1
Microelectronics technology	45	1.5	1.5		2	2	5	50%		50%
MTU2
Numerical modeling1	45	1.5		1.5	3	2	4	50%		50%
TU Discovery						1	2
DTU
EMC Methodology – Methods measurements and tests	30	1.5		1.5	3	1	2	50%		50%
Transversal TU						1	1
TUT
English for industry	20	1.5			3	1	1			100%
total semester1	290	10.5	6	4	20	14	30

Other*: additional work with a semi-annual consultation.

Semester 3

Teaching unit	Semester hourly volume	weekly hourly volume				Coefficients	Credits	evaluation method
								Continued Examination	Exam
	14-16 weeks	C	T	PW	Autres*
TU Fundamental						8	18
FTU1
Physics of Components and Nanostructures	45	1.5	1.5		1	3	6	33%		67%
HETEROJUNCTIONS AND DIELECTRICS	45	1.5	1.5		1	3	6	33%		67%
FTU2
Analog Circuit Design	45	1.5	1.5		2	2	3	33%		67%
Advanced MOS Devices	22.5	1.5			2	2	3	33%		67%
TU Methodology						4	9
MTU1
Photovoltaic Conversion	22.5	1.5			2	2	4	50%		50%
MTU2
Photonic Materials and Components	45	1.5	1.5		2	2	5	50%		50%
TU Discovery						1	2
DTU
Telecommunications systems, RF and microwave devices	67.5	1.5	1.5	1.5	2	1	2	50%		50%
Transversal TU						1	1
TUT
Bibliographic search					20	1	1			100%
total semester1	292.5	10.5	7.5	1.5	32	14	30

Other*: additional work with a semi-annual consultation.

Semester 4:

Title of the teaching unit (TU)

Field: PHYSICS

Speciality: Physics of Semiconductors and Electromagnetic Compatibility

Training  in an accredited company with the completion of a dissertation and discussion in front of a committee of professors

	Semester hourly volume	Coefficients	Crédits
Personal work	120	6	15
Take a training course with a specialized company	90	4	10
Seminars	30	2	5
Total Semester 4	240	12	30