How does COMSOL arrive at its rotating potential term for the Hamiltonian in rotating frame?

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Hello,

I'm trying to understand how COMSOL arrives at the term (Which it shows you in COMSOL) to add onto the Hamiltonian if you solve the Schrödinger equation in a rotating reference frame.

Does anyone know where I can look this stuff up? There's nothing in the semiconductor manual about it and the page in the documentation is very meek https://doc.comsol.com/6.2/docserver/#!/com.comsol.help.semicond/semicond_ug_schrodinger.8.11.html?highlight=rotating%25E2%2590%25A4frame


1 Reply Last Post 21 oct. 2024, 04:25 UTC−4
Najmeh Delavari COMSOL Employee

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Posted: 2 weeks ago 21 oct. 2024, 04:25 UTC−4
Updated: 2 weeks ago 21 oct. 2024, 04:28 UTC−4

Hello,

The References for the Schrödinger Equation Interface are listed in the Semiconductor Manual p.309 (V62):

  1. L. I. Schiff, Quantum Mechanics, 3rd edition (1968), McGraw Hill.

  2. P. Harrison, Quantum Wells, Wires and Dots, 3rd edition (2009), Wiley.

Best regards,

Najmeh Delavari

Product Developer, Semiconductor

Hello, The References for the Schrödinger Equation Interface are listed in the Semiconductor Manual p.309 (V62): 1. L. I. Schiff, Quantum Mechanics, 3rd edition (1968), McGraw Hill. 2. P. Harrison, Quantum Wells, Wires and Dots, 3rd edition (2009), Wiley. Best regards, Najmeh Delavari Product Developer, Semiconductor

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