Simulation of temporal evolution of superpositions of stationary states of simple quantum-mechanical systems

Popis: 

Numerical or analytical methods enable vizualization of time evolution of several basic yet instructive and practically important quantum systems and their properties like the tunnelling effect on a barrier or a finite well in case of a wave packet, or non-stationary or coherent states of infinite 1-2-3D square well (quantum billiard), harmonic oscillator or coupled oscillators or the hydrogen atom. The goal of the thesis is implement a new or use existing mathematical modelling framework to visualize these effects and possibly interpret results in terms of physics ranging from crystals to alpha decay.
Literature: Griffiths, D.J., Quantum Mechanics
https://phet.colorado.edu/en/simulation/quantum-tunneling
http://physics.weber.edu/schroeder/software/BarrierScattering.html
http://www.ncnr.nist.gov/staff/dimeo/DimeoWavePackets.pdf

Školitel: 
Mgr. Jiří Kvita, Ph.D.
Kontakt: 

SLO building, office 2.17, phone ++420 585 63 1585

Stupeň: 
bakalářské studium
magisterské studium
Obory: 
POCFYZ
PRFYZ
NANO
AF
Skupina: