Important Notice: Our web hosting provider recently started charging us for additional visits, which was unexpected. In response, we're seeking donations. Depending on the situation, we may explore different monetization options for our Community and Expert Contributors. It's crucial to provide more returns for their expertise and offer more Expert Validated Answers or AI Validated Answers. Learn more about our hosting issue here.

Does anyone here know if any of the organic dyes can be optically pumped to lasing with a mercury vapor light of sufficient power?

April 26, 2017dyes lasing light mercury optically organic power pumped sufficient vapor

0

Posted

Does anyone here know if any of the organic dyes can be optically pumped to lasing with a mercury vapor light of sufficient power?

2 Answers

0

Posted

(From: Don Klipstein (don@misty.com).) Organic dye lasers tend to require much higher degree of pumping than a mercury arc can provide. This is due to the short lifetime of the desired excited state of organic dye molecules (typically around a nanosecond or a few nanoseconds). You have to have a light intense enough to achieve the necessary population inversion in about this amount of time. (Since these lasers are usually 4-level lasers, you don’t actually have to excite a majority of all dye molecules within a nanosecond. However, what you have to do is still a tall order.) In fact, plain ordinary xenon flash tubes often have difficulty achieving the necessary light intensity. You may need extra-intense flash tubes with somewhat unusual circuitry, voltages, etc. to get a dye laser working. For some xenon flash tube stuff including stuff that may help getting a dye laser to lase, try these web pages of mine: • Xenon Flash Design Guidelines (including a bit of info for laser pumping) •

0

Posted

(From: Don Klipstein (don@misty.com or klipstei@netaxs.com).) Organic dye lasers tend to require much higher degree of pumping than a mercury arc can provide. This is due to the short lifetime of the desired excited state of organic dye molecules (typically around a nanosecond or a few nanoseconds). You have to have a light intense enough to achieve the necessary population inversion in about this amount of time. (Since these lasers are usually 4-level lasers, you don’t actually have to excite a majority of all dye molecules within a nanosecond. However, what you have to do is still a tall order.) In fact, plain ordinary xenon flash tubes often have difficulty achieving the necessary light intensity. You may need extra-intense flash tubes with somewhat unusual circuitry, voltages, etc. to get a dye laser working. For some xenon flash tube stuff including stuff that may help getting a dye laser to lase, try these web pages of mine: • Xenon Flash Design Guidelines (including a bit of inf