4.3 Stationary states and barrier penetration
Scattering is fundamental to almost everything we know about the world, such as why the sky is blue. Tunnelling is entirely quantum-mechanical and gives rise to such phenomena as nuclear fusion in stars. Examples and applications of both these fascinating concepts are investigated in this unit.
4.2 Wave packets and tunnelling in one dimension
Scattering is fundamental to almost everything we know about the world, such as why the sky is blue. Tunnelling is entirely quantum-mechanical and gives rise to such phenomena as nuclear fusion in stars. Examples and applications of both these fascinating concepts are investigated in this unit.
4.1 Overview
Scattering is fundamental to almost everything we know about the world, such as why the sky is blue. Tunnelling is entirely quantum-mechanical and gives rise to such phenomena as nuclear fusion in stars. Examples and applications of both these fascinating concepts are investigated in this unit.
3.6 Scattering in three dimensions
Scattering is fundamental to almost everything we know about the world, such as why the sky is blue. Tunnelling is entirely quantum-mechanical and gives rise to such phenomena as nuclear fusion in stars. Examples and applications of both these fascinating concepts are investigated in this unit.
3.5 Scattering from finite square wells and barriers
Scattering is fundamental to almost everything we know about the world, such as why the sky is blue. Tunnelling is entirely quantum-mechanical and gives rise to such phenomena as nuclear fusion in stars. Examples and applications of both these fascinating concepts are investigated in this unit.
3.4 Probability currents
Scattering is fundamental to almost everything we know about the world, such as why the sky is blue. Tunnelling is entirely quantum-mechanical and gives rise to such phenomena as nuclear fusion in stars. Examples and applications of both these fascinating concepts are investigated in this unit.
3.3 Scattering from a finite square step
Scattering is fundamental to almost everything we know about the world, such as why the sky is blue. Tunnelling is entirely quantum-mechanical and gives rise to such phenomena as nuclear fusion in stars. Examples and applications of both these fascinating concepts are investigated in this unit.
3.2 Stationary states and scattering in one dimension
Scattering is fundamental to almost everything we know about the world, such as why the sky is blue. Tunnelling is entirely quantum-mechanical and gives rise to such phenomena as nuclear fusion in stars. Examples and applications of both these fascinating concepts are investigated in this unit.
3.1 Overview
Scattering is fundamental to almost everything we know about the world, such as why the sky is blue. Tunnelling is entirely quantum-mechanical and gives rise to such phenomena as nuclear fusion in stars. Examples and applications of both these fascinating concepts are investigated in this unit.
2.2 Wave packets and scattering in one dimension
Scattering is fundamental to almost everything we know about the world, such as why the sky is blue. Tunnelling is entirely quantum-mechanical and gives rise to such phenomena as nuclear fusion in stars. Examples and applications of both these fascinating concepts are investigated in this unit.
2.1 Overview
Scattering is fundamental to almost everything we know about the world, such as why the sky is blue. Tunnelling is entirely quantum-mechanical and gives rise to such phenomena as nuclear fusion in stars. Examples and applications of both these fascinating concepts are investigated in this unit.
1 What are scattering and tunnelling?
Scattering is fundamental to almost everything we know about the world, such as why the sky is blue. Tunnelling is entirely quantum-mechanical and gives rise to such phenomena as nuclear fusion in stars. Examples and applications of both these fascinating concepts are investigated in this unit.
Learning outcomes
Scattering is fundamental to almost everything we know about the world, such as why the sky is blue. Tunnelling is entirely quantum-mechanical and gives rise to such phenomena as nuclear fusion in stars. Examples and applications of both these fascinating concepts are investigated in this unit.
The Paul Callaghan Interviews: Andrew Wilson
This interview is part of a series undertaken in 2007 and 2007 by Paul Callaghan of the MacDiarmid Institute, as part of a project entitled "beyond the Farm and the Theme Park". Andrew Wilson is a physicist at the University of Otago, an expert in lasers, optics and their application to the study of cold atoms. He leads a small spin-out company called Photonic Innovations.
The Paul Callaghan Interviews: Andrew Wilson
This interview is part of a series undertaken in 2007 and 2007 by Paul Callaghan of the MacDiarmid Institute, as part of a project entitled "beyond the Farm and the Theme Park". Andrew Wilson is a physicist at the University of Otago, an expert in lasers, optics and their application to the study of cold atoms. He leads a small spin-out company called Photonic Innovations.
Writing family history
A short introduction to this album.
The physical world: waves and relativity
An introduction to this album.
The physical world: waves and relativity
An introduction to this album.
Understanding Cities
A short introduction to this album.
One to One Consultation
A client and an instructor from 37 Degrees Gym demonstrate the components that make up effective communication and rapport building.
