1 
83110 
Linear Algebra 
4 
2 
 
6 
6 
3 
1 
83112 
Differential and Integral Calculus I 
4 
2 
 
6 
6 
3 
1 
83108 
Combinatorics 
2 
1 
 
3 
3 
1.5 
1 
83120 
Introduction to Software Engineering and Computers 
2 
2 
 
4 
4 
2 
1 
83002 
An Overview of Engineering 
2 
 
 
2 
 
0 
1 
86115 
Mechanics (alternatively, 83102 Physics I) 
4 
2 
 
6 
6 
3 
1 
86112 
Fundamental Concepts in Modern Physics 
2 
 
 
2 
2 
1 


Total Year 1 Semester 1 
20 
9 
0 
29 
27 
13.5 
2 
83114 
Differential and Integral Calculus II 
4 
2 
 
6 
6 
3 
2 
83115 
Ordinary Differential Equations (alternatively, 86154 Differential Equations) 
2 
1 
 
3 
3 
1.5 
2 
83119 
Data Structures and Algorithms I 
3 
1 
 
4 
4 
2 
2 
83140 
Digital Logic Systems 
3 
1 
 
4 
4 
2 
2 
83002 
An Overview of Engineering 
2 
 
 
2 
 
0 
2 
83011 
Python Programming 
2 
 
 
2 
2 
1 
2 
86120 
Electromagnetism (alternatively, Physics II 83103) 
4 
2 
 
6 
6 
3 
2 
86129 
Lab in General Physics 
 
 
2 
2 
2 
1 
2 
86170 
Introduction to Modern Physics 
2 
1 
 
3 
3 
1.5 


Total Year 1 Semester 2 
22 
8 
2 
32 
30 
15 
3 
83206 
Linear Systems 
3 
1 
 
4 
4 
2 
3 
83211 
Complex Functions 
2 
1 
 
3 
3 
1.5 
3 
83216 
Introduction to Probability and Statistics 
3 
1 
 
4 
4 
2 
3 
83237 
Introduction to Electrical Engineering 
3 
1 
 
4 
4 
2 
3 
86207 
Math III (altenatively, 83210 Harmonious Analysis)) 
4 
2 
 
6 
6 
3 
3 
86209 
Waves 
3 
2 
 
5 
5 
2.5 
3 
86210 
Classical Mechanics 
3 
2 
 
5 
5 
2.5 
3 
86232 
Computerized Physics Lab 
 
 
3 
3 
3 
1.5 


Total Year 2 Semester 3 
21 
10 
3 
34 
34 
17 
4 
83243 
Semiconductor Devices Laboratory 
 
 
3 
3 
1.5 
0.75 
4 
83244 
Fundamentals of Semiconductor Devices 
3 
1 
 
4 
4 
2 
4 
83245 
Signals and Systems 
3 
1 
 
4 
4 
2 
4 
86234 
Theory of Electromagnetic Fields (alternatively, 83207 Electromagnetic Fields ) 
3 
1 
 
4 
4 
2 
4 
86311 
Quantum Theory I (alternatively, 83204 Applied Quantum Mechanics) 
3 
2 
 
5 
5 
2.5 
4 
86246 
Optics (alternatively, 83340 Introduction to Modern Optics) 
4 
2 
 
6 
6 
3 
4 
86248 
Optics Laboratory 
 
 
4 
4 
4 
1 
4 
86215 
Thermodynamics and Statistical Mechanics I 
3 
1 
 
4 
4 
2 


Total Year 2 Semester 4 
19 
8 
7 
34 
32.5 
15.25 
6 
83214 
Tools for Numeric Analysis (not offered in 2023) 
2 
2 
 
4 
4 
2 
5 
83302 
Random Signals and Noise 
3 
2 
 
5 
5 
2.5 
5 
83308 
Digital Electronic Circuits 
3 
2 
 
5 
5 
2.5 
5 
83253 
Logic Design 
2 
1 
 
4 
3 
1.5 
5 
83807 
Quantum Computing I (Eliahu Cohen) 
3 
1 
 
4 
4 
2 
5 
86312 
Quantum Theory II 
3 
2 
 
5 
5 
2.5 


Total Year 3 Semester 5 
16 
10 
0 
27 
26 
13 
5 
83223 
Object Oriented Programming 
2 
2 
 
4 
4 
2 
6 
83246 
Introduction to Control Theory 
3 
1 
 
4 
4 
2 
6 
NEWP 
Light and Matter Interaction (Michael Stern) 
3 
 
 
3 
3 
1.5 
6 
86365 
Modern Optics and Lasers (EO track can alternatively take Introduction to Lasers 83440) 
3 
1 
 
4 
4 
2 


Total Year 3 Semester 6 
11 
4 
0 
15 
15 
7.5 
7,8 
83401 
Project 
7 
 
 
7 
7 
3.5 
7 
86216 
Statistical Physics II 
3 
1 
 
4 
4 
2 
7 
NEWP 
Advanced Laboratory in Quantum Science and Technology 
 
 
4 
4 
2 
1 
8 
86367 
Quantum Optics Lab 
 
 
4 
4 
3 
1.5 
8 
86370 
Solid State Physics 
4 
2 
 
6 
6 
3 


Year 4 Total 
14 
3 
8 
25 
22 
11 


Total General Requirements 
123 
52 
20 
196 
186.5 
92.25 
Quantum Sensing Track 



Required 






5 
83340 
Introduction to Modern Optics and ElectroOptics (alternatively, Optics 86246) 
3 
1 
 
4 
4 
2 
6 
83649 
OptoElectronic Devices and Systems 
3 
1 
 
4 
4 
2 
6 
83440 
Introduction to Lasers (alternatively, Modern Optics and Lasers 86365 ) 
3 
1 
 
4 
4 
2 
7 
83466 
Optical Communications 
3 
1 
 
4 
4 
2 
7 
NEWP 
Quantum Light Technology  Measurement and Communications (Avi Peer) 
3 
 
 
3 
3 
1.5 
7 
83678 
NnoPhotonics 
3 
 
 
3 
3 
1.5 


Total 
18 
4 
0 
22 
22 
11 


Electives (See below other courses from the Physics Department): 






6 
NEWE 
Advanced Quantum Measurement 
3 
 
 
3 
3 
1.5 
5 
83316 
Semiconductor Physics (Exemption for 86370 Solid State Physics) 
2 
1 
 
3 
3 
1.5 
8 
83644 
Thermodynamics for Optical Engineering (Exemption for 86215 Thermodynamics) 
2 
1 
 
3 
3 
1.5 
7 
NEWE 
Adanced Quantum Information 
3 
 
 
3 
3 
1.5 
7 
83306 
Waveguides and Microwave Systems 
3 
1 
 
4 
4 
2 
7 
83445 
Advanced ElectroOptics Laboratory 
 
 
3 
3 
1.5 
0.75 
7 
83609 
GrapheneBased Technologies and Two Dimensional Semiconductors 
3 
 
 
3 
3 
1.5 
7 
83628 
SemiconductorBased Optoelectronic Devices and Materials 
2 
1 
 
3 
3 
1.5 
7 
83646 
ElectroOptic Detectors 
2 
1 
 
3 
3 
1.5 
8 
NEWE 
Quantum Materials (Doron Nave) 
3 
 
 
3 
3 
1.5 
8 
86840 
Quantum Optics (Avi Peer) 
3 
1 
 
4 
4 
2 
8 
NEWE 
Imaging and Quantum Super Resolution 
3 
 
 
3 
3 
1.5 
8 
83915 
Nonlinear Optics 
2 
2 
 
4 
4 
2 
8 
83647 
Super Resolution and Imaging Systems 
2 
1 
 
3 
3 
1.5 
8 
83648 
Advanced Topics in Optical Communications 
2 
1 
 
3 
3 
1.5 
Quantum Computing Track 



Required 






6 
83320 
Digital Signal Processing I 
3 
1 
 
4 
4 
2 
6 
83622 
Introduction to Machine Learning 
2 
1 
 
3 
3 
1.5 
7 
83620 
Information Theory 
2 
1 
 
3 
3 
1.5 
8 
83674 
Quantum Machine Learning 
2 
1 
 
3 
3 
1.5 
8 
NEWE 
Classic and Quantum Encryption 
3 
 
 
3 
3 
1.5 


Total 
12 
4 
0 
16 
16 
8 
Electives (See below other courses from the Physics Department): 


83250 
Automata and Computability 
3 
1 
 
4 
4 
2 
5 
83455 
Computer Networks and Internet I 
3 
2 
 
5 
5 
2.5 
6 
83310 
Digital Communications I 
3 
1 
 
4 
4 
2 
6 
83321 
Statistical Algorithms for Signal Processing 
3 
1 
 
4 
4 
2 
6 
83410 
Analog Communications 
2 
1 
 
3 
3 
1.5 
7 
83623 
Mathematical Modeling and Analysis of Networks 
2 
 
 
2 
2 
1 
7 
NEWE 
Advanced Quantum Information 
3 
 
 
3 
3 
1.5 
7 
NEWE 
Theoretical Models of Quantum Computing 
3 
 
 
3 
3 
1.5. 
8 
NEWP+E 
Quantum Simulations 
3 
 
 
3 
3 
1.5 
8 
86840 
Quantum Optics (Avi Peer) 
3 
1 
 
4 
4 
2 
8 
83626 
Introduction to Coding in Digital Communiactions 
2 
1 
 
3 
3 
1.5 
Minimal no. of required credits in Faculty courses for Quantum Engineering is 71.25, excluding Jewish Studies, General Studies and English. Students must fulfill these requirements as detailed in the university’s bylaws. The minimum is calculated according to the two specialized tracks (19 credits; electives: 1.5*2 credits) 
240 Semester Hours 

114.25 Annual Credits 