Thank you so much for the great lecture. Could you please arrange all the lectures of quantum information and computation in a single playlist in order, I would greatly appreciate it. Thanks
I like to visualize the quantum circuit as a 4D/5D hypercube (stack of containers for tensor states) with a head and tail plotted at W, ranging in + or - directions.
A protocol is a predefined set of rules (= everything written on the whiteboard until here: 11:27) that determines how qubits in a quantum circuit have to be transformed (with some predetermined goal in mind). Alice and Bob have to follow the quantum teleportation protocol to get the desired outcome. Alice only has a choice in which qubit she wants to transfer.
I don't know why there's very less views here? He has explained it soooo well!!
This is the clearest presentation of quantum teleportation on all of RUclips. Thank you 🙏🏼
You had saved my final term
I clearly understood the quantum teleportation with this lecture.
thank you so much!
Thank you so much for the great lecture. Could you please arrange all the lectures of quantum information and computation in a single playlist in order, I would greatly appreciate it.
Thanks
Thanks for the clear explanation!
Thank you for this wonderful explanation
The effort you have put in is herculean to say the least!
Thank a lot.
This is really good! Thank you!
Really great video, actually a bit mindblown by the result at the end
good, thanks!!🚀🚀
Awsome you just make my day
Thanks !
I like to visualize the quantum circuit as a 4D/5D hypercube (stack of containers for tensor states) with a head and tail plotted at W, ranging in + or - directions.
so good man really là
A protocol is a predefined set of rules (= everything written on the whiteboard until here: 11:27) that determines how qubits in a quantum circuit have to be transformed (with some predetermined goal in mind). Alice and Bob have to follow the quantum teleportation protocol to get the desired outcome. Alice only has a choice in which qubit she wants to transfer.
😂
i love you
First