Difference between revisions of "Measuring a One Way Light Speed"
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A novel method of measuring measuring a one way light speed (OWLS) is proposed using standard equipment of frequency generators, laser pulse generators and oscilloscopes with periodic pulses going from A to B and also from B to A. The method can then inform B how long it has taken light pulses to reach B?s laboratory from A and similarly A can establish how long the pulses have taken to come from B. The method is based on experimental work that actually used a very similar method to measure the relative speeds of photons and classical pulses. It is expected that with classical optical pulses, the method could measure the one way velocity to an accuracy better than 1 part in 10<sup>6</sup>. | A novel method of measuring measuring a one way light speed (OWLS) is proposed using standard equipment of frequency generators, laser pulse generators and oscilloscopes with periodic pulses going from A to B and also from B to A. The method can then inform B how long it has taken light pulses to reach B?s laboratory from A and similarly A can establish how long the pulses have taken to come from B. The method is based on experimental work that actually used a very similar method to measure the relative speeds of photons and classical pulses. It is expected that with classical optical pulses, the method could measure the one way velocity to an accuracy better than 1 part in 10<sup>6</sup>. | ||
| − | [[Category:Scientific Paper]] | + | [[Category:Scientific Paper|measuring way light speed]] |
[[Category:Relativity]] | [[Category:Relativity]] | ||
Revision as of 10:41, 1 January 2017
| Scientific Paper | |
|---|---|
| Title | Measuring a One Way Light Speed |
| Read in full | Link to paper |
| Author(s) | John E Carroll |
| Keywords | Measurement, One Way Light Speed |
| Published | 2008 |
| Journal | None |
| No. of pages | 7 |
Read the full paper here
Abstract
A novel method of measuring measuring a one way light speed (OWLS) is proposed using standard equipment of frequency generators, laser pulse generators and oscilloscopes with periodic pulses going from A to B and also from B to A. The method can then inform B how long it has taken light pulses to reach B?s laboratory from A and similarly A can establish how long the pulses have taken to come from B. The method is based on experimental work that actually used a very similar method to measure the relative speeds of photons and classical pulses. It is expected that with classical optical pulses, the method could measure the one way velocity to an accuracy better than 1 part in 106.
