Modern Applied Quantum Mechanics —MAQM
This advanced course, Modern Applied Quantum Mechanics (MAQM), delivers a complete mathematical language of Quantum Theory for graduate and post-graduate level electrical and computer engineering professionals. This course is recommended to scholar and industrial experts in fields pertaining microelectronics device designers and quantum computing fields.
-
-
-
Lesson 4: Quantum Wave
Course lessons under development. Course start date 4/12/2024. For inquiries email >> tex@cognitave.com
Course lessons under development. Course start date 4/12/2024. For inquiries email >> tex@cognitave.com
-
Lesson 6: One Dimensional Complete Problems
Course lessons under development. Course start date 4/12/2024. For inquiries email >> tex@cognitave.com
Course lessons under development. Course start date 4/12/2024. For inquiries email >> tex@cognitave.com
-
-
-
Lesson 1: Quantum Theory
Course lessons under development. Course start date 4/12/2024. For inquiries email >> tex@cognitave.com
Course lessons under development. Course start date 4/12/2024. For inquiries email >> tex@cognitave.com
-
Lesson 2: Quantum Measurement
Course lessons under development. Course start date 4/12/2024. For inquiries email >> tex@cognitave.com
Course lessons under development. Course start date 4/12/2024. For inquiries email >> tex@cognitave.com
-
-
-
[1]:
[2]:
-
(1) Mathematica Codes
(2) Matlab Codes
(3) Octave8 Codes
(4) Python Codes
-
(1). Monographs and Talks by Sina Khorasani
-
Khorasani, S. Higher-Order Interactions in Quantum Optomechanics: Analysis of Quadratic Terms. Sci Rep 8, 16676 (2018). https://doi.org/10.1038/s41598-018-35055-6
In Memoriam For Sina Khorasani, PhD
Prof.~Sina Khorasani (RIP, 1975–2019) was a tenure track Associate Professor at Electrical School of Engineering at Sharif University of Technology, Tehran, Iran, and with the Vienna Center for Quantum Science and Technology. His area of specialty encompasses theoretical nonlinear quantum physics and operator algebra, quantum electronics, two-dimensional materials, and nanophotonics. Learn more on his personal page.