Finally, finally, FINALLY we conclude our tour through the field of Nanoplasmonics. In this final video we discuss the physics that drives the useful effects that underpin this field.
When are you going to create a video on Plasmonics Polariton??? You have made really great videos on plasmonics, well researched and organised. I'm waiting for another intuitive video. 👌🎓
I can't believe that this channel has so few subscribers. Your content is very well-explained and well-presented. I don't like the way you say ligand though lol.
Wow this is crazy good. I think there is no point in apologizing for long videos, cause your audience is not exactly mainstream I guess haha. Appreciate every minute!
Only 3K subscribers!! Man, this channel is gon blow up big. Rarely do you see small channels churning out quality educational content such as this. Usually, it takes them a while to get to that level as they collect views and followers. Thank you, this really helped.
Awesome explanation for non-physics majors. Thank you! Can you please also explain magnetism diamagnetic, paramagnetic and superparamagnetic in the context of nano magnetism and ferrofluids?
if they are metalic or not, an image charge appears and acts just as as a real charge as a source charge. maybe you can explain this to me, the coulomb force between two point charges is known as F=qq/r^2. but what is the force between a charge and an infinitely large metal? is it F=qq/r^2 or F=0.5 * qq/r^2, where 0.5 comes from my notion that the metal linearly responds to the source charge that acts on it. you bring 10 particles then i will bring 10 particles.
I work with plasmonics and just found your channel. Very interesting explanations and animations, now you got one more subscriber. No SPPs video? Surface plasmons are exquisitely interesting phenomena too, as well as its applications
During these videos I learned that nanoplasmonics is an extraordinarily deep subject. I came in thinking I'd do one video and move on and spent ~2 years getting 3 out and one of the things I definitely left on the table was SPP stuff. I have a vague idea of spinning off SPP stuff to its own video with discussions of these awesome new optoelectronic coupling ideas through surface plasmons. It's definitely something I'd like to return to, but I'd be dishonest if I didn't say there's a long pipeline of things I'd like to cover here.
I was recently taking a summer intern relating nanoplasmonics and chirality. This is the most understandable videos I have ever watched. Save me a lot of time. I am so confused when I read them on textbook... many formula and not much related to the experiment I was doing.
Recently I've been doing some research on photonics. Being an Electronic engineer I had zero ideas about what was happening which was bothering me so much. I think I got the answer finally, thanks a lot! You saved my as*.
So very well-explained. I am taking a solid state physics class and it's very helpful to see the big picture from time to time or to have things explained in a different way. Thank you for making this video.
amazing series! thanks a lot! Question - you said the frequency of resonance depends on surrounding medium. As much as I can understand, the dielectric medium can influence the intensity/ amplitude of electric field, because number of field lines concentrating at the point can be medium dependent.But how does that affect frequency? It intuitively seems that the spring constant of the particle should depend on the particle itself, am I missing something?
Honestly amazing video, I have heard about plasmonics in a lot of my classes now and this is by far the most intuitive explanation for LSPR I have heard. Thank you so much.
Apologies, I try and keep things as low-level as I can. However, the original inspiration for the videos was a Physics Today article on Nanoplasmonics by Mark Stockman. You can find a link to the paper here: www.researchgate.net/publication/252144173_Nanoplasmonics_The_physics_behind_the_applications It'll have a bit more detail for ya.
I'm about to start my PhD in nanoplasmonic biosensors with which I have no previous experience and these videos are just such a great intro into into the problematics! Thank you!! /SUBSCRIBED/
When are you going to create a video on Plasmonics Polariton???
You have made really great videos on plasmonics, well researched and organised. I'm waiting for another intuitive video. 👌🎓
Such an amazing illustrator and explainer!
Cool video series about nanoplasmonics! Thank you. Currently I’m working towards plasmonic biosensing. Wish me luck
Good luck!
Amazing video ! Thank you !
I can't believe that this channel has so few subscribers. Your content is very well-explained and well-presented.
I don't like the way you say ligand though lol.
The better the channel the fewer subscribers. The free power with spark plugs and capacitors gets 10 billion hits
Very useful maybe you can also create a playlist with the 3 videos together ;)
That would almost make too much sense ;)
Your voice sounds strained and anxious.
Part 1 : th-cam.com/video/8iyShOidtYg/w-d-xo.html
Part 2 : th-cam.com/video/iUyPssG9f_M/w-d-xo.html
Wow this is crazy good. I think there is no point in apologizing for long videos, cause your audience is not exactly mainstream I guess haha. Appreciate every minute!
Only 3K subscribers!! Man, this channel is gon blow up big. Rarely do you see small channels churning out quality educational content such as this. Usually, it takes them a while to get to that level as they collect views and followers. Thank you, this really helped.
Awesome explanation for non-physics majors. Thank you! Can you please also explain magnetism diamagnetic, paramagnetic and superparamagnetic in the context of nano magnetism and ferrofluids?
Could this principle work in MWIR spectrum ? Size of the particles around 1-3 micron, and the wavelength around 10 microns ?
if they are metalic or not, an image charge appears and acts just as as a real charge as a source charge. maybe you can explain this to me, the coulomb force between two point charges is known as F=qq/r^2. but what is the force between a charge and an infinitely large metal? is it F=qq/r^2 or F=0.5 * qq/r^2, where 0.5 comes from my notion that the metal linearly responds to the source charge that acts on it. you bring 10 particles then i will bring 10 particles.
what an awesome explanation............thank you this really helped me a lot............A big thank you.......
Some time ago I saw a study regarding how the particle react if you use a rafial polarized light. The ruslt : rotating electrical charge
I work with plasmonics and just found your channel. Very interesting explanations and animations, now you got one more subscriber. No SPPs video? Surface plasmons are exquisitely interesting phenomena too, as well as its applications
During these videos I learned that nanoplasmonics is an extraordinarily deep subject. I came in thinking I'd do one video and move on and spent ~2 years getting 3 out and one of the things I definitely left on the table was SPP stuff. I have a vague idea of spinning off SPP stuff to its own video with discussions of these awesome new optoelectronic coupling ideas through surface plasmons. It's definitely something I'd like to return to, but I'd be dishonest if I didn't say there's a long pipeline of things I'd like to cover here.
Could anyone please direct me to a source that explains the difference between transverse and longitudinal resonance for nanorods?
Cool vid 🖖👏
These are some of the best physics videos I've ever seen - thank you so much for making them!
Thanks! I appreciate it!
I was recently taking a summer intern relating nanoplasmonics and chirality. This is the most understandable videos I have ever watched. Save me a lot of time. I am so confused when I read them on textbook... many formula and not much related to the experiment I was doing.
Recently I've been doing some research on photonics. Being an Electronic engineer I had zero ideas about what was happening which was bothering me so much. I think I got the answer finally, thanks a lot! You saved my as*.
The content of your channel is excellent. Thank you.
Thank you so much for the explanation, you re a hero
So very well-explained. I am taking a solid state physics class and it's very helpful to see the big picture from time to time or to have things explained in a different way. Thank you for making this video.
Thanks for making this awesome video
You saved me of reading pages of reviews
this series is so informative.....would have taken a lot of time through books if it wasnt for you ...thanks a lot
Glad it was helpful!
Is this how we build a ufo?
Fantastic explanation
Thank you so much man!
keep doing it........
this is great, thank you
Truly awesome videos! Finished the nanoplasmonics series. Thank you!
Thanks! And thanks for the patience.
amazing series! thanks a lot!
Question - you said the frequency of resonance depends on surrounding medium. As much as I can understand, the dielectric medium can influence the intensity/ amplitude of electric field, because number of field lines concentrating at the point can be medium dependent.But how does that affect frequency? It intuitively seems that the spring constant of the particle should depend on the particle itself, am I missing something?
Comeback Man
Wow, that is neat!
U r amazing
Great
Honestly amazing video, I have heard about plasmonics in a lot of my classes now and this is by far the most intuitive explanation for LSPR I have heard. Thank you so much.
OMG! Such a good informative video. This is way better than my 2h online lecture.
Thankyou for visually explaining the phenomenon.
Best videos I have ever found. Eagerly to waiting more videos
Really helpful to understand the basics of plasmonics
This was soooo helpful to me , thank you
Glad it was helpful!
Well explained through animations. Appreciated 💐
The return of the (high quality video, he deserves more views) king
Thanks a lot, it is such important detailed information, and connected and ordered perfectly.
Thanks! Much appreciated
First?
Responded above. Thanks.
Excellent content. A few formulas wouldn't hurt..
Apologies, I try and keep things as low-level as I can. However, the original inspiration for the videos was a Physics Today article on Nanoplasmonics by Mark Stockman. You can find a link to the paper here:
www.researchgate.net/publication/252144173_Nanoplasmonics_The_physics_behind_the_applications
It'll have a bit more detail for ya.
I'd been waiting for part 3 soooo loooong, finally, thank u!
Sorry it took so long
Finally 🙌
I'm about to start my PhD in nanoplasmonic biosensors with which I have no previous experience and these videos are just such a great intro into into the problematics! Thank you!! /SUBSCRIBED/