Physics307L:People/Allen/Lightspeed: Difference between revisions
(→Safety) |
(→Safety) |
||
| Line 20: | Line 20: | ||
~ The PMT is connected to a high voltage power source set to near 2400V. Be sure all cables are insulated and not worn. | ~ The PMT is connected to a high voltage power source set to near 2400V. Be sure all cables are insulated and not worn. | ||
~ Do not handle the 200V power source to the LED when the power is on, as has exposed contacts in the back and two exposed wires in the front with worn insulation. | ~ Do not handle the 200V power source to the LED when the power is on, as has exposed contacts in the back and two exposed wires in the front with worn insulation. | ||
~ Do not expose the PMT to ambient light when the high voltage power source is on, or it will be destroyed by the high current passing through it due to the photomultiplier. | ~ Do not expose the PMT to ambient light when the high voltage power source is on, or it will be destroyed by the high current passing through it due to the photomultiplier. | ||
Revision as of 11:25, 12 October 2011
Objective
This lab calculates the speed of light by measuring the differences in the time interval between when a signal is transmitted and when it is received a short distance away, as the distance between the emitter and the receiver is changed by regular increments. As the distance is decreased, the intensity of the signal at the receiver, a photomultiplier (PMT), is greater, resulting in a higher amplitude output from the PMT to the time-to-amplitude converter (TAC). The TAC is triggered when a pulse strength passes a certain threshold, which is reached more quickly by a higher amplitude pulse. This results in a decrease in the recorded time intervals with respect to the actual time intervals as the emitter, a light emitting diode (LED), and the PMT are moved closer together ~ a phenomenon known as time walk. To compensate for this, there are two polarized lenses placed between the LED and the PMT which can be rotated with respect to each other, to adjust the light intensity before each time interval measurement and keep the amplitude of the output signal from the PMT constant.
Equipment
The equipment is as follows:
- Tektronix Oscilloscope (Model TDS 1002)
- Bertan Power Supply (Model 215, 3000V, 5mADC)
- Canberra Delay Module (Model 2058)
- Ortec TAC/SCA Module (Model 567)
- Harshaw NIM Bin (Model NQ-75)
- Harrison Laboratories Power Supply (Model 6207A, 160V, 0.2A)
- Photomultiplier Tube (PMT)
- LED circuit
- BNC Cables
These are from David Weiss' notes from when we worked together two years ago, just as a basis for referencing what I am able to record today. < User:David J Weiss | Notebook
Safety
~ The PMT is connected to a high voltage power source set to near 2400V. Be sure all cables are insulated and not worn.
~ Do not handle the 200V power source to the LED when the power is on, as has exposed contacts in the back and two exposed wires in the front with worn insulation.
~ Do not expose the PMT to ambient light when the high voltage power source is on, or it will be destroyed by the high current passing through it due to the photomultiplier.
Set-Up
Data
{{#widget:Google Spreadsheet |key=0AiJMfUL4fhrXdEM5NU5tSjJmbUUySDdkcDc5WURPQkE |width=500 |height=300 }}
