Quantum radar is a speculative remote-sensing technology based on quantum-mechanical effects, such as the uncertainty principle or quantum entanglement. Broadly speaking, a quantum radar can be seen as a device working in the microwave range, which exploits quantum features, from the point of view of the radiation source and/or the output detection, and is able to outperform a classical counterpart. One approach is based on the use of input quantum correlations (in particular, quantum entanglement) combined with a suitable interferometric quantum detection at the receiver (strongly related to the protocol of quantum illumination). Paving the way for a technologically-viable prototype of a quantum radar involves the resolution of a number of experimental challenges as discussed in some review articles, the latter of which pointed out "inaccurate reporting" in the media. Current experimental designs seem to be limited to very short ranges, of the order of one meter, suggesting that potential applications might instead be for near-distance surveillance or biomedical scanning. (Wikipedia).
What Is Quantum Computing | Quantum Computing Explained | Quantum Computer | #Shorts | Simplilearn
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Quantum Theory - Full Documentary HD
Check: https://youtu.be/Hs_chZSNL9I The World of Quantum - Full Documentary HD http://www.advexon.com For more Scientific DOCUMENTARIES. Subscribe for more Videos... Quantum mechanics (QM -- also known as quantum physics, or quantum theory) is a branch of physics which deals with physica
From playlist TV Appearances
Quantum Computing for Beginners | How to get started with Quantum Computing
Quantum computing is the use of quantum-mechanical phenomena such as superposition and entanglement to perform computation. A quantum computer is used to perform such computation, which can be implemented theoretically or physically. The field of quantum computing is actually a sub-field
From playlist Quantum Physics
Quantum Computer in a Nutshell (Documentary)
The reservoir of possibilities offered by the fundamental laws of Nature, is the key point in the development of science and technology. Quantum computing is the next step on the road to broaden our perspective from which we currently look at the Universe. The movie shows the history of pr
From playlist Quantum computing
Quantum Computers, Explained With Quantum Physics
Quantum computers aren’t the next generation of supercomputers—they’re something else entirely. Before we can even begin to talk about their potential applications, we need to understand the fundamental physics that drives the theory of quantum computing. (Featuring Scott Aaronson, John Pr
From playlist Explainers
Who Has The Best Quantum Computer?
This is a summary of all the main companies building quantum computers today, and what their most powerful machines are. You can get the digital image here: https://www.flickr.com/photos/95869671@N08/51849762629/in/dateposted-public/ But we can’t simply look at qubits counts because so man
From playlist Quantum Physics Videos - Domain of Science
The Map of Quantum Computing | Quantum Computers Explained
An excellent summary of the field of quantum computing. Find out more about Qiskit at https://qiskit.org and their YouTube channel https://www.youtube.com/c/qiskit And get the poster here: https://store.dftba.com/collections/domain-of-science/products/map-of-quantum-computing With this vi
From playlist Quantum Physics Videos - Domain of Science
How do quantum computers work?
Quantum computers are said to have the potential to offer computing power far larger than what we have today. Are they really these miracles of quantum computing or are they just over-hyped? You can have brief information in our video on how quantum computing works related to superposi
From playlist Radical Innovations
An explanation of quantum annealing at D-Wave including the applications and the relationship with other forms of quantum computing. Find out more on our website https://www.dwavesys.com/quantum-computing Get one free minute of direct access to a D-Wave quantum computer when you sign up f
From playlist Videos I made for D-Wave Systems
Why We Should Be Excited About Radar
Share on Facebook: http://on.fb.me/1c5zZsU Radar technology is awesome, and we’ve been using it in really innovative ways recently. From emergency response to dynamic cruise control to….quantum physics, the future of radar has a lot in store! What’s YOUR favorite use of radar? Let us k
From playlist Stuff About Technology
The more general uncertainty principle, regarding Fourier transforms
The meaning of the uncertainty principle in the context of Fourier transforms Help fund future projects: https://www.patreon.com/3blue1brown An equally valuable form of support is to simply share some of the videos. Special thanks to these supporters: http://3b1b.co/uncertainty-thanks For
From playlist Fourier
Weekly Space Hangout - May 29, 2015: Dr. Bradley M. Peterson
Host: Fraser Cain (@fcain) Special Guest: This week we welcome Dr. Bradley M. Peterson, whose research is directed towards determination of the physical nature of active galactic nuclei. Guests: Jolene Creighton (@jolene723 / fromquarkstoquasars.com) Charles Black (@charlesblack / sen.com/
From playlist Weekly Space Hangout
Dynamical model selection and estimation near the (...) - J. Ralph - Workshop 2 - CEB T2 2018
Jason Ralph (Univ. Liverpool) / 06.06.2018 Dynamical model selection and estimation near the quantum-classical boundary Joint work with Marko Toros, Simon Maskell, Kurt Jacobs and Hendrik Ulbricht. We discuss a general method of model selection from experimentally recorded time-trace dat
From playlist 2018 - T2 - Measurement and Control of Quantum Systems: Theory and Experiments
21. Phased Radar, Single Electron Interference
MIT 8.03SC Physics III: Vibrations and Waves, Fall 2016 View the complete course: https://ocw.mit.edu/8-03SCF16 Instructor: Yen-Jie Lee Prof. Lee explains how phased radar works. He also discusses the implication of the single electron interference experiment and its relation to Quantum P
From playlist MIT 8.03SC Physics III: Vibrations and Waves, Fall 2016
Teach Astronomy - Limit to Precision
http://www.teachastronomy.com/ We're used to the idea that scientists can measure quantities more and more accurately with more and more observations or better and better measuring equipment. This is not true in the world of the atom. There's a fundamental limit to the precision with whi
From playlist 06. Optics and Quantum Theory
STEMerch Store: https://stemerch.com/ If you missed part 1: https://www.youtube.com/watch?v=5EYFlnI_0ew Support the Channel: https://www.patreon.com/zachstar PayPal(one time donation): https://www.paypal.me/ZachStarYT Instagram: https://www.instagram.com/zachstar/ Twitter: https://twitter
From playlist Physics
The Wild Weasels - When Electronic Warfare Became Real
https://brilliant.org/CuriousDroid In many ways the story of the Wild Weasels is the story of the beginnings of electronic warfare between the radar crew on the ground and the weasels in the air. This was also the first time that electronics had been used to find targets actively during a
From playlist Weapons
“From Berkeley to Berlin” Part 1 – Tom Ramos
The story begins when a South Dakotan, Ernest Lawrence, the grandson of Norwegian immigrants, created a laboratory on the Berkeley campus of the University of California. The "Rad Lab" attracted some of the finest talent in America to pursue careers in nuclear physics. đź’» LLNL News: https
From playlist LLESA Author Series
Quantum field theory, Lecture 2
This winter semester (2016-2017) I am giving a course on quantum field theory. This course is intended for theorists with familiarity with advanced quantum mechanics and statistical physics. The main objective is introduce the building blocks of quantum electrodynamics. Here in Lecture 2
From playlist Quantum Field Theory