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== Table of Contents ==
 
== Table of Contents ==
  
1. Introduction
+
Introduction
  
2. The Wavefunction
+
The Wavefunction
  
3. Derivation
+
Derivation
  
4. Particle-in-a-box
+
Particle-in-a-box
  
5. Applications and Further Readings
+
Applications and Further Readings
  
 
== Introduction ==
 
== Introduction ==

Revision as of 05:12, 6 December 2020

Schrödinger Equation

Varun Chheda

Dr. Walther

Table of Contents

Introduction
The Wavefunction
Derivation
Particle-in-a-box
Applications and Further Readings

Introduction

$ \hat H \psi = E \psi $

First postulated in 1925 by its namesake discoverer, Erwin Schrodinger, the Schrodinger equation is used to describe the wavefunction of particles – that is, an equation that unifies the wave and particle nature of the energy of matter. In its most simple form, it is expressed as a partial differential equation between its energy, representing the wave characteristic, and the Hamiltonian, describing its particle nature. The equation became the foundation for the field known today as quantum mechanics. Although expressible in many different forms, in this paper we limit our scope to perhaps the most famous and simple systems, the particle-in-a-box. We will then examine applications of the Schrodinger equation in modeling of the hydrogen atom and quantum tunneling.

Alumni Liaison

Ph.D. on Applied Mathematics in Aug 2007. Involved on applications of image super-resolution to electron microscopy

Francisco Blanco-Silva