The Schrodinger equation was solved using the finite difference method and the simulations were run in python. The wave packets are all Gaussian in shape and the red line indicates the potential. Probability densities are not normalized. The videos support my senior thesis at the University of Scranton
This textbook presents basic numerical methods and applies them to a large variety of physical model...
Quantum mechanics undergraduate courses mostly focus on systems with known analytical solutions; the...
In this paper we examine whether a quantum computer can efficiently simulate time evolution of a one...
The Schrodinger equation was solved using the finite difference method and the simulations were run ...
The behavior of particles at the atomic level is dictated by quantum theory and must satisfy the Sch...
Manthe U. Quantum Molecular Dynamics with Wave Packets. In: J. G, D. M, A. M, eds. NIC Series Vol. 1...
In this paper, we examine whether a quantum computer can efficiently simulate quantum processes such...
Quantum computing is one of the promising active areas in physics research. This is because of the p...
Quantum computation is a theoretical computation model that processes information in a quantum mecha...
We developed an interactive program with Matlab that numerically solves the time-dependent Schrödin...
This python program is as used in "Real Wave Quantum Mechanics: Solutions for 2-D Simple Harmonic Po...
We show how to infer the quantum state of a wave packet from position probability distributions meas...
A numerical method for solving Schrodinger's equation based upon a Baker-Campbell-Hausdorff (BCH) ex...
This textbook presents basic numerical methods and applies them to a large variety of physical model...
In any quantum dynamics method that approximates wave functions as a linearly combined basis set, no...
This textbook presents basic numerical methods and applies them to a large variety of physical model...
Quantum mechanics undergraduate courses mostly focus on systems with known analytical solutions; the...
In this paper we examine whether a quantum computer can efficiently simulate time evolution of a one...
The Schrodinger equation was solved using the finite difference method and the simulations were run ...
The behavior of particles at the atomic level is dictated by quantum theory and must satisfy the Sch...
Manthe U. Quantum Molecular Dynamics with Wave Packets. In: J. G, D. M, A. M, eds. NIC Series Vol. 1...
In this paper, we examine whether a quantum computer can efficiently simulate quantum processes such...
Quantum computing is one of the promising active areas in physics research. This is because of the p...
Quantum computation is a theoretical computation model that processes information in a quantum mecha...
We developed an interactive program with Matlab that numerically solves the time-dependent Schrödin...
This python program is as used in "Real Wave Quantum Mechanics: Solutions for 2-D Simple Harmonic Po...
We show how to infer the quantum state of a wave packet from position probability distributions meas...
A numerical method for solving Schrodinger's equation based upon a Baker-Campbell-Hausdorff (BCH) ex...
This textbook presents basic numerical methods and applies them to a large variety of physical model...
In any quantum dynamics method that approximates wave functions as a linearly combined basis set, no...
This textbook presents basic numerical methods and applies them to a large variety of physical model...
Quantum mechanics undergraduate courses mostly focus on systems with known analytical solutions; the...
In this paper we examine whether a quantum computer can efficiently simulate time evolution of a one...
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