Subject: Subject Sylbus: Molecular Electronics - 127443 (Current)

Molecular Electronics - 127443
Will be learned this year
Credit
Points
3.0
 
  Lecture Exercise Laboratory Project or
Seminar
House
Work
Weekly
Hours
3       3

Determination of the grade according to progress during the semester and the submission of the final thesis


Prerequisites: Quantum Chemistry 1 124400
or Intr.to Quantum Chemi.and Applications 124408
or ( Quantum Physics 1 115203
and Chemistry for Physicists M 124107
and Chemistry for Physicists 124108 )
or ( Quantum Physics 1 115203
and General Chemistry 125001 )


Second Quantization of Many Fermions Systems. Fock Space Operators and Tensor Products. the Density Operator and Liouville Space.Introduction to Quantum Thermodynamics. the Fermi-Dirac Distribution Function. Second Quantization of the Interaction Operators. Discrete Models of Solids. Quantum Dynamics. Open Quantum Systems. the Markovian Approximation and Kinetic Models of Transport. Quantum Master Equations. Rge Transport. Tunnel Junctions Out of Equilibrium and Current-Voltage Curves. Effects of Molecular Vibrations on Transport through Molecules. the Quantum Scattering Approach. the Transmission Function and Self Energies. the Landauer Transport Formula. Tunneling and Interference Effects in Charge Transport Througth Molecular Junctions.


Timetable to semester 02/2020 2020/2021 Spring Semester
RoomBuildingHourdayLecturerExercise
Lecture
no.Registering
Group
4כימיה12:30-14:30MondayFull Professor Peskin UriLecture1010
4כימיה14:30-15:30Tuesday


Textbooks
PublishedPublisherAuthorsBook
2010world scientific, new jerstyj. carlos cuevas and e. scheermollecular electgronics - introduction to theory and experiment

Created in 01/03/2021 Time 18:56:10