Yesterday I introduced **Paul Dirac**, number 10 in *“The Guardian’s”* list of **the 10 best physicists**. I mentioned that his main contributions to physics were (i) predicting antimatter, which he did in 1928, and (ii) producing an equation (now called the Dirac equation) which describes the behaviour of a sub-atomic particle such as an electron travelling at close to the speed of light (a so-called relativistic theory). This equation was also published in 1928.

## The Dirac Equation

In 1928 Dirac wrote a paper in which he published what we now call the Dirac Equation.

This is a relativistic form of Schrödinger’s wave equation for an electron. The wave equation was published by Erwin Schrödinger two years earlier in 1926, and describes how the quantum state of a physical system changes with time.

### The Schrödinger eqation

The various terms in this equation need some explaining. Starting with the terms to the left of the equality, and going from left to right, we have is the imaginary number, remember . The next term is just Planck’s constant divided by two times pi, i.e. . The next term is the partial derivative with respect to time of the wave function .

Now, moving to the right hand side of the equality, we have

which is the mass of the particle, is its potential energy, is the Laplacian. The Laplacian, is simply the divergence of the gradient of the wave function, .

In plain language, what the Schrödinger equation means “total energy equals kinetic energy plus potential energy”, but the terms take unfamiliar forms for reasons explained below.

on 18/01/2019 at 03:51 |Antimatter and Dirac’s Equation – Physics Abouts[…] Source link […]