Andere Kunden interessierten sich auch für
![Oscillatory transmission through non-tunneling regime of symmetric rectangular double barrier]( "Oscillatory transmission through non-tunneling regime of symmetric rectangular double barrier")
Oscillatory transmission through non-tunneling regime of symmetric rectangular double barrier47,95 €![Internal Transport Barrier in Tokamak Plasma]( "Internal Transport Barrier in Tokamak Plasma")
Internal Transport Barrier in Tokamak Plasma26,99 €![Coupled channel effects at near barrier energies]( "Coupled channel effects at near barrier energies")
Coupled channel effects at near barrier energies44,99 €![Diffusion of helium in the uranium dioxide using the ab initio method]( "Diffusion of helium in the uranium dioxide using the ab initio method")
Diffusion of helium in the uranium dioxide using the ab initio method16,99 €![Journey to the Bound States]( "Journey to the Bound States")
Journey to the Bound States48,99 €![Modelirowanie sil'nyh wzaimodejstwij i nasyschaüschie traektorii Redzhe]( "Modelirowanie sil'nyh wzaimodejstwij i nasyschaüschie traektorii Redzhe")
Modelirowanie sil'nyh wzaimodejstwij i nasyschaüschie traektorii Redzhe32,99 €![Inward Bound]( "Inward Bound")
Inward Bound71,99 €
The passage of a composite object across a barrier is very important for reaction physics in areas such as nuclear physics, condensed matter physics and other fields. In this report, we approach the problem of the passage a composite object across a barrier by addressing the state of a particle and its dynamics in a potential well or hitting a barrier. We provide a numerical solution to the one dimensional time-dependent Schrödinger equation using the Crank-Nicolson method. The Bound state of a proton is demonstrated. We also demonstrate a proton hitting a rectangular potential barrier. The tunneling phenomenon is observed. Transmission and Reflection probabilities were determined. Finally, the model for a composite object across a barrier is formulated.