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Quantum Algorithms
Quantum tunneling from a new type of Unified Cantor Potential
arXiv
Authors: Mohammad Umar, Vibhav Narayan Singh, Mohammad Hasan, Bhabani Prasad Mandal
Year
2023
Paper ID
55753
Status
Preprint
Abstract Read
~2 min
Abstract Words
168
Citations
N/A
Abstract
We introduce a new type of potential system that combines the families of general Cantor (fractal system) and general Smith-Volterra-Cantor (non-fractal system) potentials. We call this system as Unified Cantor Potential (UCP) system. The UCP system of total span L is characterized by scaling parameter ρ>1, stage G and two real numbers α and β. For α=1, β=0, the UCP system represents general Cantor potential while for α=0, β=1, this system represent general Smith-Volterra-Cantor (SVC) potential. We provide close-form expression of transmission probability from UCP system for arbitrary α and β by using q-Pochhammer symbol. Several new features of scattering are reported for this system. The transmission probability TG(k) shows a scaling behavior with k which is derived analytically for this potential. The proposed system also opens up the possibility for further generalization of new potential systems that encompass a large class of fractal and non-fractal systems. The analytical formulation of tunneling from this system would help to study the transmission feature at breaking threshold when a system transit from fractal to non-fractal domain.
Why This Paper Matters
- It adds a 2023 reference point for readers tracking recent quantum research.
- We introduce a new type of potential system that combines the families of general Cantor (fractal system) and general Smith-Volterra-Cantor (non-fractal system) potentials.
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