this type of research has grate important in modern communication because it's you can create tow entangled photons (signal and idler) this phenomena called spontaneous parametric down conversion (SPDC), I wish you good work in this Really attractive field with best regard Dear Daniel

Thank you Professor Daniel for your video, very informative!!

Thank u sir very helpful for understanding the concept

Very helpful, thank you, and I'm also interesting in the difference-frequency generation.

Magnifique.

Awesome video!! It's like a expensive lego set for physicists. Like the laser sources and power supplies too.

Very helpful and insightful, thanks!

thank you so much for the detailed explanation, those are some know-how that only acquire through hands on experience, people dont teach them on paper or books =(

I've always thought of frequency summation and doubling as if one was talking about a FM radio, but I only now am realizing it's about the interaction of the electromagnetic waves when they are also interacting with a third physical medium, whether it be it a heterodyne circuit or a nonlinear material , the mixing doesn't happen in free space , only upon simultaneous interaction with matter. How can light be FM modulated? What *are* nonlinear properties of matter that effect this interaction? Under what circumstances does *air* have nonlinear properties and what are they? In the case of a CO2 or nitrogen lasers (for instance), where there is an intermediate excited state that is opaque to the intended output frequency , would it be possible to opticaly pump such a laser with two other lasers who's frequencies separately can pass through the gas lasing material but their combined frequency is exactly what is needed to bump the atoms back to the desired excited state, maintaining the population inversion, therefore eliminating the need for cooling such lasers? Is there such an interaction?

Looks like you picked up some astigmatism and/or coma on that beam... doubling really accentuates the wavefront. :)

Realy interesting thanks.

Hey it's a very good demonstration, do you have any material to explain how this nonlinear materials work?

Can you do parametric downconversion in your lab? If so, could you show it? I love to see a single-photon being split in two ;-)

Thank you it was very useful

Great, pls have you any about use KTP 1064/532 on high power fibre laser /200W CCW Raycus and how many is real as output? Pls is very important. Thx for your reply

Such a great video, so helpful

Very helpful!

Great video! What's the difference between a crystal specified as SHG @ 800 nm and THG @ 800 nm. Is the latter optimized for THG only or both?

Excellent video. I'm building a DPSS laser using intracavity SHG through KTP as a hobby and have seen exactly what you demonstrate (laser is CW). But I am seeing poor efficiency (~2% -- optimum for the cavity should be ~7%). The only resources I've found so far start with Maxwell's equations and build theory, but never get to tangible "engineering" level formulas. Are there simpler formulas / tables for different crystal types or is this just a "knuckle down and learn it" moment? Crystal is at optimum orientation and temperature and I suspect the waist isn't tight enough, but I'd like to calculate what size it needs to be instead of re-working the cavity at random.

This is an excellent demonstration here. Briefly, how would you interpret BBO crystals and biomaterials(e.g. microtubules) both exhibiting nonlinear optical properties?

How about different frequency generation using the same setup?

Thank you for your explanation. Very impressive video! I have a quick question about the beam shape, which looks very elliptical. Is it because the incident beam is not perfectly round? Does BiBO crystal affect the beam shape?

very informative!! btw i work on plasmonics ans use a 780nm SLD to excited gold nanorods, the maximum power if SLD is 20mW, i was thinking of exciing the interband of nanorods, so if I use a BBO crystal can I get SHG, of sufficient power of say atleast 1 or 2mW? thanks..

can I do this experiment over Tin Oxide thin films (SnO2) has tetragonal crystal system?

Very nice demonstration, Thanks. I want to frequency double 1600nm from the supercontinuum. I am thinking to use a dichroic mirror to separate the 1600nm part and frequency double it using MgO PPLN. I am wondering what specs should I focus on when ordering SHG crystal?. Is it just the crystal should be phase-matched for 1600nm or something else?. Also, how focused your beam should be (spot size focused into the crystal)?

Im sorry if you explained it in the video but im very new to this stuff and didnt understand all you said. But when you got the new frequency how much can that be shifted? Is it only possible to shift in one direction or is there any other limitations for the output? For example if I had a infrared light source, could it be doubled into visible light; and if so what frequencies could it have shifted to? Again sorry if my question is weirdly formulated, I dont know what Im doing 😅

Great vid, curious what type of conversion efficiencies you see? Wavelength dependent?

Great, whats the rep rate and pulse duration?

So I’m new to this… haven’t been to school but I was diving into quantum entanglement and here I am. So from my understanding is that the experiment using BBO crystals and lasers is done to measure photons and their entanglement. Is there a way to capture a larger amount of particular even without a clear entanglement?

Hi Professor, thanks for the insightful video, I had a question about the mount for your BBO @ 2:34, i can see the thorlabs rotating mount is crm1l but could you tell me what the piece is inside that holds the BBO? also the dimension of your crystal? thank you again for the video!

Just a quick question. I’m using BBO , 1040 nm and 801 . This should work as well, right? In addition once the beams are spatial overlapped I can send them through BBO and check for SFG and play with delay? If it’s overlapped in time and space we should see blue. Am I thinking of this correct? Great video!!

Thank you for the information. Please is there a max frequency limit for this crystal? In theory is it possible to put group of crystals to multiply frequency until gamma ray spectrum?

Can you make a video on only Cristal how it made who to cut it proper dimensions of crystal

please what is a non linear crystal? anyone?

can I do this experiment over Tin Oxide thin films (SnO2) has tetragonal crystal system?