Light Essay, Research Paper
Light is what we see. It can be thought of either as a particle, (the photon), or as a wave. The photon we can easily think of as a small dot travelling through space at the speed of light. Each photon has a particular colour or energy. But how do we think of light as a wave? For this we need to know that light is also an “Electro-magnetic field” — a combination of electric-field and magnetic-field — the same thing that causes static electricity and magnets to attract (or repel) things. Light is just another way that this “field” is experienced. A light wave is an oscillating electro-magnetic field – just like a water wave is water with an oscillating surface. Photons are bosons, and have a quantum spin of 1.
Light has the properties of both particle and waves. If we look for photons we will find them, but if we look for wave -like properties we can see them too. However, we cannot see both particle and wave properties at the same time.
It is often useful to confine light in an optical-cavity. This allows us both to make more intense light, as well as select light of a particular colour (or energy).
Light travels at a speed of 2.99792458Ч10^{8} ms^{-1}
When passing though matter, light is slowed down by brief interactions, and so appears to travel more slowly.
This “slowing down” is accounted for by the index of refraction of the matter.
Light’s properties can at first seem confusing and inconsistent because of
the unique nature of light: light has the properties of both a wave and a
particle. In some situations, light’s behavior is more easily explained by
thinking of light as a particle. In other situations, its behavior can only be
explained if light is thought of as a wave. This duality of light between a
particle and a wave is very difficult if not impossible to visualize. Instead
it is much easier to see light demonstrate its properties in specific
situations.
Light as a Wave
Before the nineteenth century, the physics community was split over the
actual nature of light. Around 1800, Thomas Young devised an experiment
designed specifically to settle the debate over the nature of light once and
for all. The basic principle behind the experiment was how light would
behave when it encountered an obstacle with a hole that was smaller than
the beam of light. Young set up a beam of light to shine through a slit,
then the resulting light that made it through that slit was to pass through
two more slits side by side.
If light behaves as a particle, it should pass through the first slit, then
through the two small slits. But, it should not spread out after passing
through the slits. Because of this if light behaves as a particle in this
situation, only two stripes of light should end up passing through the
entire slit system. The diagram below shows light behaving as a particle in
Young’s experiment.
These results were not what Young actually observed. Instead of seeing
two stripes, Young saw a series of many stripes. This was definitely not
consistent with the behavior of a particle. However, it was consistent with
the behavior of a wave. When a wave passes through a slit, it spreads out
on the other side. Also, when two waves pass over each other they can
interfere with each other. These two properties of waves explain the
behavior that Young observed. When the light waves pass through the slit,
the waves spread out on the other side of the slit. When the two waves overlap, they interfere with each other.
Dualities
Despite Young’s findings, many other experiments have supported the
theory that light exists as a particle. Max Planck’s investigation into black
body radiation could not be explained while light was thought to be a
wave. Planck began to develop the idea of packets of light called photons.
The idea of light being a particle was further developed by Einstein for his
work on the photoelectric effect. This duality causes light to be very
difficult for most people to visualize. Thinking of light as being a particle
at times and also a wave at times is the only way to understand light’s
diverse properties.
In modern physics, light or electromagnetic radiation may be viewed in one of two complementary ways: as a wave in an abstract electromagnetic field, or as a stream of massless particles called photons. Although either is an acceptable description of light, for our purposes in introductory astronomy the wave description will be more useful.
The speed of light in a vacuum is commonly given the symbol c. It is a universal constant that has the value
c = 3 x 1010 cm/second
The speed of light in a medium is generally less than this. Normally the term “speed of
light”, without further qualification, refers to the speed in a vacuum.
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