TY - CONF
T1 - Tunneling as a Source for Quantum Chaos
AU - Flom, Ofir
AU - Yahalom, Asher
AU - Zilberberg, Haggai
AU - Horwitz, Lawrence
AU - Levitan, Jacob
PY - 2021/6/1
Y1 - 2021/6/1
N2 - We use an one dimensional model of a square barrier embedded in an infinite potential well to demonstrate that tunneling leads to a complex behavior of the wave function and that the degree of complexity may be quantified by use of the spatial entropy function defined by S = -\int |\Psi(x,t)|^2 ln |\Psi(x,t)|^2 dx. There is no classical counterpart to tunneling, but a decrease in the tunneling in a short time interval may be interpreted as an approach of a quantum system to a classical system. We show that changing the square barrier by increasing the height/width do not only decrease the tunneling but also slows down the rapid rise of the entropy function, indicating that the entropy growth is an essentially quantum effect.
AB - We use an one dimensional model of a square barrier embedded in an infinite potential well to demonstrate that tunneling leads to a complex behavior of the wave function and that the degree of complexity may be quantified by use of the spatial entropy function defined by S = -\int |\Psi(x,t)|^2 ln |\Psi(x,t)|^2 dx. There is no classical counterpart to tunneling, but a decrease in the tunneling in a short time interval may be interpreted as an approach of a quantum system to a classical system. We show that changing the square barrier by increasing the height/width do not only decrease the tunneling but also slows down the rapid rise of the entropy function, indicating that the entropy growth is an essentially quantum effect.
UR - https://www.mendeley.com/catalogue/fa008dad-6a5a-3e84-8034-1a56b13572c9/
UR - https://www.mendeley.com/catalogue/fa008dad-6a5a-3e84-8034-1a56b13572c9/
U2 - 10.3390/entropy2021-09810
DO - 10.3390/entropy2021-09810
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ER -