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| ====== Interferometer ====== | ====== Interferometer ====== | ||
| - | The Fiber-Optic Michelson-Morley Experiment (FOMMX) is based upon an [[wp> | + | The Fiber-Optic Michelson-Morley Experiment (FOMMX) is based upon an [[wp> |
| - | There are many types of interferometers, | + | |
| - | This article focuses on the interferometer that is used in this experiment. | + | |
| + | An interferometer is an instrument in which the interference of two beams of light is employed to make precise measurements. Precise means a fraction of the wavelength of light. The wavelength of light used in FOMMX is on the order of one micron, $10^{-6}$ meters. | ||
| - | An instrument | + | The word // |
| - | The word //interference// is used in describing | + | Here's a common activity that can be described in terms of //phase//. Consider a bigger person pushing a child on a swing. The person does not push constantly, except perhaps when starting the swinging. Once the child is swinging back and forth, the person pushes |
| - | The terms //constructive interference// or //destructive | + | |
| - | Here' | + | In a Michelson interferometer, |
| - | Consider a bigger person pushing a child on a swing. The person does not push constantly, except perhaps when starting the swinging. Once the child is swinging back and forth, the person pushes | + | |
| - | The child and the person | + | |
| - | The phase of the swinging cycles between moving forward and moving backward. | + | |
| - | The phase of the pushing cycles between pushing forward and not pushing at all. | + | |
| - | If the pushing forward coincides with the swing moving forward, then the swinging motion increases. In this case the pushing and swing motion | + | |
| - | If the pushing forward coincides with the swing moving backward, then the swinging motion decreases. In this case the pushing and swing motion are out of phase and the height of the swinging decreases due to the // | + | |
| - | In a Michelson interferometer, | + | In the photo-finish of a horse race, the photo shows how far back the second place horse is behind the winner. Note that it does not tell how fast either horse is going, only how much more ground the winner covered than the second horse. This is a direct analogy to the interferometer. It does not measure the speed of light. It measures the difference in the speed of light between two beams. |
| - | + | ||
| - | In the photo-finish of a horse race, the photo shows how far back the second place horse is behind the winner. Note that it does not tell how fast either horse is going, only how much more ground the winner covered than the second horse. | + | |
| - | + | ||
| - | This is a direct analogy to the interferometer. It does not measure the speed of light. It measures the difference in the speed of light between two beams. | + | |
| In the 1800s, light was thought to be a wave in some sort of medium. By analogy, sound is known to be a wave in air and other mediums. The words Luminiferous Æther were intended to mean light-bearing medium. It was presumed that the speed of light through this medium was fixed. If such a medium existed, it was therefore reasoned that by combining the speed of light measured on Earth and the known speed of the Earth in the solar system, then the speed of the Luminiferous Æther in the solar system could be deduced. | In the 1800s, light was thought to be a wave in some sort of medium. By analogy, sound is known to be a wave in air and other mediums. The words Luminiferous Æther were intended to mean light-bearing medium. It was presumed that the speed of light through this medium was fixed. If such a medium existed, it was therefore reasoned that by combining the speed of light measured on Earth and the known speed of the Earth in the solar system, then the speed of the Luminiferous Æther in the solar system could be deduced. | ||
| - | Michelson | + | Michelson |
| The interferometer used in my experiment has the basic configuration as the original Michelson-Morley apparatus. The most important difference between that interferometer and mine is that the light path in my interferometer is formed by optical fiber rather than the mirrors used in the original. | The interferometer used in my experiment has the basic configuration as the original Michelson-Morley apparatus. The most important difference between that interferometer and mine is that the light path in my interferometer is formed by optical fiber rather than the mirrors used in the original. | ||
| - | I claim that the mass density in the light path is a key condition determining the outcome of a Michelson-Morley experiment. This means that Einsteins relativity and the associated experiments and observations remain valid. | + | I claim that the mass density in the light path is a key condition determining the outcome of a Michelson-Morley experiment. |
| - | + | ||
| - | The difference between conventional experimental results and my results is explained by the difference between their mass density parameter and my mass density parameter. They chose a mass density near-zero, and I chose the mass density of glass, the core of optical fiber. | + | |
| - | + | ||
| - | Given that the previously unrecognized experimental parameter is different, one should not expect that the results should be the same. | + | |
| - | + | ||
| - | /* | + | |
| - | ---- | + | |
| - | + | ||
| - | + | ||
| - | The phrase “interference of two beams of light” could be restated as “the combination of two beams of light”. | + | |
| - | + | ||
| - | + | ||
| - | The Michelson interferometer | + | |
| - | The Michelson-Morley interferometer is a Michelson interferometer ... | + | |
| - | /* | + | The difference between conventional experimental results and my results is explained by the difference between their mass density parameter and my mass density parameter. They chose a mass density near-zero, and I chose the mass density |
| - | * Descriptions of interference | + | |
| - | * Pedaling | + | |
| - | * apply forces in phase, and you go nowhere if the forces are out of phase on the pedals when you go forward. | + | |
| - | * If you can move the chain and pedal and wheel in both directions, if you have the reverse phase the bicycle goes backwards. | + | |
| - | * Paddling a boat. | + | |
| - | * If you pull on both the panels at the same time, you go forward for a moment. When you lift the paddles from the water for another stroke, you coast. | + | |
| - | * The net process | + | |
| - | * If you call one paddle back and push the other one forward, | + | |
| - | * x. | + | |
| - | * If you pull on the paddles out of phase with each other, then you’ll turn a little bit to the right and go a little bit forward and then you’ll turn a little bit to the left and go a little bit forward. | + | |
| - | * If you pull on the paddles out of phase with each other then you’ll turn a little bit to the right and go a little bit forward, | + | |
| - | * and then you’ll turn a little bit to the left and go a little bit forward. | + | |
| - | * y. | + | |
| - | * Also, you’ll be using your arms only, not your bag. If you pull in sync when you’re using your whole body, especially your back and even legs. | + | |
| - | + | ||
| - | */ | + | |
| + | This description is a great oversimplification. For one thing, there is a second previously unrecognized parameter. Also, various assumptions related to the expected and actual results need reexamined. | ||
a/interferometer.1640583981.txt.gz · Last modified: 2021/12/27 00:46 by sz
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