The key distinction between Schrodinger's equation and other wave equations is that Schrodinger's equation is first order in time, with the 'i' taking on the role of the second time derivative. Then, ...

As Joe Howlett points out, "the Schrödinger equation remains physicists’ foremost window into the quantum realm. It tells scientists how that strange world works; that is, how quantum objects interact ...

Stochastic nonlinear wave equations and Schrödinger equations represent a fascinating confluence of probability theory and the analysis of partial differential equations. By incorporating random ...

The fractional Schrödinger equation represents a pivotal extension of conventional quantum mechanics by incorporating fractional-order derivatives, which capture nonlocal and anomalous dispersive ...

Caveat lector: I begin by reminding you that I am not a physicist. But I want to draw attention to a well-known feature of the Schrodinger equation that I have never heard discussed and wonder at its ...

Materials with controllable quantum mechanical properties are of great importance for the electronics and quantum computers of the future. However, finding or designing realistic materials that ...

Computational chemistry has its roots in the early attempts by theoretical physicists, beginning in 1928, to solve the Schrödinger equation (see Box 2.1) using hand-cranked calculating machines. These ...

Light Publishing Center, Changchun Institute of Optics, Fine Mechanics And Physics, CAS Four decades ago, Feynman proposed the idea that the operation of a complex quantum system can be simulated by ...