Waves Definitions

AQA A level Physics

Amplitude

A wave’s maximum displacement from its equilibrium position

Antinode

A position of maximum displacement in a stationary wave

Cladding

A protective layer on an optical fibre to improve the tensile strength of the fibre, prevent scratching and to prevent signal transfer between adjacent fibres

Coherence

Waves are coherent if they have the same wavelength and frequency, as well as there being a fixed phase difference between them

Diffraction Grating

A grating with hundreds of slits per millimetre, that results in sharper interference patterns. They are used to calculate atomic spacing and to analyse elements

Diffraction

The spreading of waves as they pass through a gap of a similar magnitude to their wavelength

Electromagnetic Waves

Waves that consist of perpendicular electric and magnetic oscillations

Frequency

The number of waves that pass a point in a unit time period. It is the inverse of the time period

Fringe Spacing

The distance between two adjacent bright fringes or two adjacent dark fringes

Interference

The name given to the superposition of waves that occurs when two waves meet. If the waves are in phase they will constructively interfere, but if they are out of phase, they will destructively interfere

Laser

A light source that produces a collimated and coherent beam

Longitudinal Wave

A wave with oscillations that are parallel to the direction of energy propagation. Sound waves are an example of a longitudinal wave

Material Dispersion

Waves of different wavelengths travel at slightly different speeds through an optical fibre and so reach the end of the fibre at slightly different times, causing pulse broadening. The use of monochromatic light fixes this

Modal Dispersion

Waves enter an optical fibre at slightly different angles, meaning the distance each beam has to travel is slightly different. This leads to the beams reaching the end at different times and so causes pulse broadening

Node

A position of minimum displacement in a stationary wave

Optical Fibre

A thin glass fibre through which signals are passed through. Optical fibres usually have cladding surrounding them

Path Difference

A measure of how far ahead a wave is compared to another wave, usually expressed in terms of the wavelength

Phase Difference

The difference in phase between two points on a wave. It is usually expressed in radians

Phase

A measure of how far through the wave’s cycle a given point on the wave is

Polarisation

The restriction of a wave so that it can only oscillate in a single plane. This can only occur for transverse waves

Pulse Broadening

The elongation of a signal passed down an optical fibre, commonly due to modal or material dispersion

Refractive Index

A material property that is equal to the ratio between the speed of light in a vacuum, and the speed of light in a given material

Snell’s Law

A law linking a wave’s angle of incidence to its angle of refraction, with the use of the refractive indexes of the mediums involved

Speed

The product of a wave’s frequency and wavelength

Stationary Wave

A wave that stores, but does not transfer, energy

Total Internal Reflection

An effect that occurs in optical fibres, where full reflection occurs at the inside boundary of the fibre, meaning no radiation passes out

Transverse Wave

A wave with oscillations that are perpendicular to the direction of energy propagation. Electromagnetic waves are examples of transverse waves

Wavelength

The distance between two identical positions on two adjacent waves. It is commonly measured from peak to peak or trough to trough

Young’s Double-Slit Experiment

An experiment that demonstrates the diffraction of light by passing monochromatic light across two narrow slits and observing the resulting pattern of bright and dark fringes

How to find d in dsin θ = nλ

1/lines per m

Phase difference equation

Δφ = 2π * (Δt / T)