Microscopy: Fourier Space (Bo Huang)

10/10, by far the most intuitive and simple Fourier transform explaination applied in image processing

I cannot believe how amazing this lecturer is to connect the lens and fourier transform, I have learned so much!

Seriously thank you so much for this. I've been trying to understand FT for days and now it finally clicked!

Best lecture to understand the signal processing perspective and Fourier transform of image.

WoW! This is the best explanation of FFT one can find online!
Thanks a lot!

Awesome! Very clear the relationship between focal plane image and Fourier representation! Thank you!

This video and the one on Fourier transform by 3blue1brown made my understanding of FFT much clearer. The best explanation. Lots of love and keep up making such content videos!

Colleague, You are great! Thank you so much, I've seen almost hundred of movies, tried to read, nothing helped. Thank you so much. You are really great teacher, please, keep teaching.

Extremely useful for understanding the concept of cryo-EM. Thank you!

Love it, I have been seeking a simple explanation to kickoff some intuition. Please keep on doing your amazing work :)

Thank you very very much!
This was an awsome practical explanation of FT I had ever seen.

Awesome. The best explanation I find these days.

Bo you are great!
this is the best explanation of this topic I have come across and would absolutely recommend it.
Well done!

Pretty impressed with how much information (a collection of sine waves) can be encoded in a 2d plane via this construction.

Wow...this lecture helps to visualise the concepts of FT ..such an amazing lecture.

Great video! It was extremely informative and helpful. Thank you so much.

Thank you for the intuitive explanation about Fourier transform! (So happy to discover this video omg

Great explanation, very intuitive. A keeper! Thanks!

This is pure gold man, good job!

I agree wow, this IS the best description of 2D Fourier!

it is really detailed FT explanation. thanks a lot.

The best explanation of fourier transformation.

Proud of seeing such clear explanation for 2D frequency.

omg, best explanation:)) . i wish you were my professor. clear and simple

Great explanation of FT! well done!

This was awesome. Thanks!

This is by far the best explanation I’ve found online regarding the frequency domain analysis of 2D signals. Great work!!!!!!!!!

Mind blowing, outstanding way of explaining ❤

Such a great explanation. Thank you very much!

your a king! cant belive this doesn't have 1M views

Brilliance, thank you.

fourier transfer of fourier himself is such a nerd thing to do lol, love this lecture Thanks!

Thank you for the clear explanation!

Very nice explanation! Good job!

Top class!

Let me guess... this kid learned proper English and proper physic. Congrat, another science hero sharing his knowledge with us!

Very helpful!

very well explained!

this video is golden.

fantastic explanation! thanks!

Thanks it help me understand what is k-space

Really helpful video~ Thanks

Very clear and precise explanation of Fourier Transformation so far. Subscribe!

Best video in Fourier transform 👍

Great explanation!

Very clear concept in physics to connect to maths

It's a magnificent explanation, than you!

Incredible video

simply awesome sir

Simply clever... keep it up...

very well explained！

Great job

Thank you

very intuitive!

Love this

A thorough understanding of the amazing fourier transform. The F.T in time will become the most poeerful tool in explaing quantum computing and construction fabric of the universe. It has yet to go in terms of its contibution to mankind.

对我所听过的傅里叶变换的最佳解释！

Good explanation

💯/💯 Thank you so much sir

thank you

Thanks!

Brilliant.

really thanks

Should it be a cosine at 14:27 (bottom equation) instead of a sine?

Great!

is the fourier plane the same as the back focal plane of a lense?

First of all, this is a great video! Very insightful. I have a question about x, though. At 12:15, it's said that x=f sin a. Wouldn't this be x=f tan a? For small angles, I understand they'd be approximately equal. Is this done for convenience, then?

Isn't there a mistake on 9:27? I think the Fourier image should be rotated on 90 degrees, coz in the direction of x there are many freaquences due to sharp steps.

I might have missed it. Intensity of a point on the Fourier plane represents amplitude, but which visual feature represents phase?

And at 15:25 I dont think it is Fourier Transform, it is Fourier series!! They are related but not the same!

thank you very much . you dont have any idea how is that help me

wow at 10:50 he shows the darkfield image !!!!

振幅A可以通过点的亮暗在图中表示，那相位phi是怎么在图中表示的呢？

can anyone tell me why x = fsinα. is i miss something?

Good job, man

I had a high expectation at the beginning of this video, but when it goes to Fourier transform into frequency and inverse, I am not learning anything

cool

kodous

very useful

9:32

And at 17:36, he said "from previous slide, k would be f times sine of alpha" but previously he wrote "x = f sin(alpha)"...... listen to yourself professor!

Despite the good parts, flaws are serious to me. In the beginning, the light propagates from the right to the left, but then the opposite in the slide with the portrait of Fourier. The meaning of sample and back focal plane is made confusing. And the definition of alpha is messed up.

K_max has units of 1/length, by definition, and f*NA has units of length, you cant compare both of them, k_max=k*NA

And and at the very end, he labeled the "sample" with "point spread function", how on earth could a psf be formed on the sample, instead of the image plane, when you were talking about emission??? Dont be disguised by his seeming confidence, the underlying logic was full of holes!!!

I dont like the video especially because he made it very confusing when talking about the image formation with two focal planes. He didnt clearly define k there and I thought it was supposed to be about emission but he made it sound like illumination......

great explanation thank you!