Difference between revisions of "Red Versus Green Lasers"
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| − | A green and a red laser passed through a green and a red filter, respectively. The wavelength of red light ranges from approximately 635-700 nm and the wavelength of green light ranges from approximately 520-560 nm. However, this data shows another peak around 800 nm from the green laser. This is because of how a green laser works, which involves a three step process. A standard laser diode initially gives a wavelength of 808nm, which is focused on a neodymium crystal that converts the light into infrared with a wavelength of about 1000 nm. Finally, the light goes through a frequency doubling crystal that emits green light with a wavelength of 532 nm. | + | An Ocean Optics Photodiode Array was used to compare the wavelengths emitted from green and red lasers. A green and a red laser passed through a green and a red filter, respectively. The wavelength of red light ranges from approximately 635-700 nm and the wavelength of green light ranges from approximately 520-560 nm. However, this data shows another peak around 800 nm from the green laser. This is because of how a green laser works, which involves a three step process. A standard laser diode initially gives a wavelength of 808nm, which is focused on a neodymium crystal that converts the light into infrared with a wavelength of about 1000 nm. Finally, the light goes through a frequency doubling crystal that emits green light with a wavelength of 532 nm. |
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| + | Jennista Eastman (Spring 2019) | ||
Revision as of 21:14, 31 January 2019
An Ocean Optics Photodiode Array was used to compare the wavelengths emitted from green and red lasers. A green and a red laser passed through a green and a red filter, respectively. The wavelength of red light ranges from approximately 635-700 nm and the wavelength of green light ranges from approximately 520-560 nm. However, this data shows another peak around 800 nm from the green laser. This is because of how a green laser works, which involves a three step process. A standard laser diode initially gives a wavelength of 808nm, which is focused on a neodymium crystal that converts the light into infrared with a wavelength of about 1000 nm. Finally, the light goes through a frequency doubling crystal that emits green light with a wavelength of 532 nm.
Jennista Eastman (Spring 2019)