Sir very much useful and precise presentation......I am looking forward to the remaining series......Please share as early as possible......Thank you sir.....
Hello and thanks for another lecture! In the very end, simply by looking at the U x V curve, I don't understand why at all points above A and B the Gibbs energy of structure 1 will be bigger than that of structure 2... I'd highly appreciate if anyone could clarify :)
Well, it's a generalized example. Point is, whenever such is the case, the transition will occur. Below point A and B, slopes showed that the Gibbs energy of structure A is lower. At points A & B, they are same and hence there is a great possibility for the phase transition to occur. Since then, structure one's Gibbs energy is higher, we can become sure that the phase transition is gonna take place. Now, what if the case is not so? Well, then, simply there will be no phase transition. Check our fifth video of this series. Professors have quoted on that one as the best video on DFT.
Sir plz upload next lectures and if you have no time to uploading kindly shar your slides or notes if you prepared because even your slides give best understanding about 60 to 70%
Very valuable effort! Thank you so much! Two questions for you: 1- Is it possible to obtain temperature dependent mechanical properties (lets say elastic modulus / stress strain curve) of a single crystal FCC/BCC material by using DFT? 2- When will the rest of the video series be available on RUclips? :)
I cannot disclose my identity as I am not allowed to do youtube videos as per the rules where I am working now. Anyway, thanks for appreciating my videos. By the way, where are you doing research?
Sir, does condensed matter physicists gain expertise in both theoretical and experimental aspects? Or is it that theorists can not do experiments and vice versa
A nice practical question dear Somsuvra. Actually in general, they collaborate. Other than collaboration, what a theorist can do is he/she can take any published paper as a reference. From the perspective of this lecture, you can think like― let's say from a published paper, you know the raman spectroscopic data of a material and group theory analysis shows the structure must be tetragonal of some particular space group but experimental setup is challenging for this one. Then, you can come up with your theoretical tools to predict the lattice parameter and bulk modulus. At a much higher pressure, what will happen to a material? You can calculate this too if you know the ambient pressure data from a paper. Bottom line is, You certainly need to get expertise in any one field which is the most common case too.
sir can you provide calculation of VI character ,electron density etc of simple 1-D material using matlab or python .it will be very helpful to understand. And how DFT can be accompanied with NEGF.thank you
Certainly. Actually I do every single thing by myself alongwith my own research. That's why it takes time. But, the process is on, don't worry. Soon I will publish the next one
Sir very much useful and precise presentation......I am looking forward to the remaining series......Please share as early as possible......Thank you sir.....
Check ruclips.net/video/PLUDbJOVSUc/видео.html
Sir, Very precise and nicely explained... Waiting for rest of lectures.
Really useful. Kindly upload next lectures
Check ruclips.net/video/PLUDbJOVSUc/видео.html
Thank you sir for acknowledging my request and coming up with this great lecture.
Hello and thanks for another lecture! In the very end, simply by looking at the U x V curve, I don't understand why at all points above A and B the Gibbs energy of structure 1 will be bigger than that of structure 2... I'd highly appreciate if anyone could clarify :)
Well, it's a generalized example. Point is, whenever such is the case, the transition will occur. Below point A and B, slopes showed that the Gibbs energy of structure A is lower. At points A & B, they are same and hence there is a great possibility for the phase transition to occur. Since then, structure one's Gibbs energy is higher, we can become sure that the phase transition is gonna take place.
Now, what if the case is not so? Well, then, simply there will be no phase transition.
Check our fifth video of this series. Professors have quoted on that one as the best video on DFT.
you done great job
Thank you very much we need the next lecture 😊 please
Excellent work.. please upload next lecture ..
Check ruclips.net/video/PLUDbJOVSUc/видео.html
I feel like back then, waiting for the next Breaking Bad Episode
Sir, which software you used for this tutorial animation?
Plss upload next lectures asap...thank you soo much
Sir plz upload next lectures and if you have no time to uploading kindly shar your slides or notes if you prepared because even your slides give best understanding about 60 to 70%
Check ruclips.net/video/PLUDbJOVSUc/видео.html
Very valuable effort! Thank you so much! Two questions for you: 1- Is it possible to obtain temperature dependent mechanical properties (lets say elastic modulus / stress strain curve) of a single crystal FCC/BCC material by using DFT? 2- When will the rest of the video series be available on RUclips? :)
1. Yah it's possible
2. I'm trying to make it asap
@@theoreticalcmp sir plz upload remaining videos 😔
Thank you sir
Hello sir, i have watched all the videos, and these all are very much helpful. Sir where are you doing research now ?
I cannot disclose my identity as I am not allowed to do youtube videos as per the rules where I am working now. Anyway, thanks for appreciating my videos. By the way, where are you doing research?
Please, continue next series and explain interpretation of DOS which I do not understand :(
sir, could you upload the next videos?
Check ruclips.net/video/PLUDbJOVSUc/видео.html
Sir, does condensed matter physicists gain expertise in both theoretical and experimental aspects? Or is it that theorists can not do experiments and vice versa
A nice practical question dear Somsuvra. Actually in general, they collaborate. Other than collaboration, what a theorist can do is he/she can take any published paper as a reference. From the perspective of this lecture, you can think like― let's say from a published paper, you know the raman spectroscopic data of a material and group theory analysis shows the structure must be tetragonal of some particular space group but experimental setup is challenging for this one. Then, you can come up with your theoretical tools to predict the lattice parameter and bulk modulus. At a much higher pressure, what will happen to a material? You can calculate this too if you know the ambient pressure data from a paper. Bottom line is, You certainly need to get expertise in any one field which is the most common case too.
@@theoreticalcmp share link of lecture 5/10
Please upload rest of the lectures.
Check ruclips.net/video/PLUDbJOVSUc/видео.html
sir can you provide calculation of VI character ,electron density etc of simple 1-D material using matlab or python .it will be very helpful to understand. And how DFT can be accompanied with NEGF.thank you
Hello Sir, Thank you for these videos. When can we get the rest of the lectures?
Yes I will. It's just that I'm not getting enough time now.. Thank you for your support
Sir we are waiting for the next videos
Me too😅
Finally it came
Sorry for late..
There are only 4 lectures. Are you going to upload the rest of the lectures?
Yes I will. It's just that I'm not getting enough time now..
plz upload next lecture
Sir when the other lectures came out
Check ruclips.net/video/PLUDbJOVSUc/видео.html
Please upload the next videoes
Check ruclips.net/video/PLUDbJOVSUc/видео.html
We need next lectures asap😄
Check ruclips.net/video/PLUDbJOVSUc/видео.html
please make more videos on dft
Check ruclips.net/video/PLUDbJOVSUc/видео.html
please upload the next lecture soon
Certainly. Actually I do every single thing by myself alongwith my own research. That's why it takes time. But, the process is on, don't worry. Soon I will publish the next one
Please do release next lecture asap...
😁
@@priyadarshisahoo1366 ha ha tume b eithi
next video please
Check ruclips.net/video/PLUDbJOVSUc/видео.html
next video plz
Check ruclips.net/video/PLUDbJOVSUc/видео.html