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Lorenza Viola - Quantum Control Theory (Part 1) - CSSQI 2012
Lorenza Viola, Professor of Physics and Astronomy at Dartmouth College, gave a lecture on Introduction to Quantum Control for Quantum Information Processing.
The lecture is the first of two parts, and was filmed at the Canadian Summer School on Quantum Information, held at the University of Waterloo in June of 2012.
For More:
http://iqc.uwaterloo.ca
http://www.facebook.com/QuantumIQC
http://www.twitter.com/QuantumIQC
QuantumFactory Blog: http://quantumfactory.wordpress.com
published: 28 Nov 2012
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Scientists Find New Way To Control Quantum Computers
Check out Brian Keating's Channel: https://www.youtube.com/c/DrBrianKeating
Sign up for Brian's Newsletter here: http://briankeating.com/list
Today we’ll talk about climate engineering, quantum computers, how to tell a nuclear bomb from TNT, what an atom really looks like, random keys from cosmic rays, who is filing the most patents and on what, climate labels for food, a tractor beam that didn’t quite live up to my expectations. And of course, the telephone will ring.
👉 Transcript and References on Patreon ➜ https://www.patreon.com/Sabine
💌 Sign up for my weekly science newsletter. It's free! ➜ https://sabinehossenfelder.com/newsletter/
🔗 Join this channel to get access to perks ➜
https://www.youtube.com/channel/UC1yNl2E66ZzKApQdRuTQ4tw/join
00:00 Intro
00:34 Climate Engineering
03...
published: 18 Jan 2023
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Quantum Control System Basics - Part 2
Module I: System Basics - Segment 1: System Basics 2
published: 28 Oct 2014
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Quantum Control Inventory Management Demo
published: 08 May 2014
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Control vs Quantum Break | Direct Comparison
Direct visual and gameplay comparison of the recently released "Control" and "Quantum Break" on the PC, both with and without Ray Tracing enabled.
#Control #QuantumBreak #Comparison
published: 31 Aug 2019
-
Quantum Control System Basics - Part 1
Module I: System Basics - Segment 1: System Basics 1
published: 28 Oct 2014
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QCCS Quantum Computing Control System
The Quantum Computing Control System (QCCS) was the first of its kind in 2018, and with the introduction of the SHF line of instruments, it keeps driving innovation in quantum computing. In this product video, you will get a concise picture of how the components of the second generation play together to generate value as a system.
Learn more about our products: https://www.zhinst.com/quantum-computing-systems/qccs
Request a demo: https://www.zhinst.com/contact
Follow the latest from Zurich Instruments:
Website: https://www.zhinst.com/
YouTube Channel: https://www.youtube.com/c/Zhinst
LinkedIn: https://www.linkedin.com/company/zurich-instruments-ag/
Twitter: https://twitter.com/Zhinst
published: 23 Jun 2022
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How to use Quantum Physics to Make Your Dreams Your Reality | Suzanne Adams | TEDxUNO
NOTE FROM TED: We've flagged this talk, which was filmed at a TEDx event, because it appears to fall outside TEDx's curatorial guidelines. This talk only represents the speaker’s personal understanding of quantum physics and energy. The concepts discussed in this talk are not based on peer-reviewed scientific evidence or research. TEDx events are independently organized by volunteers. The guidelines we give TEDx organizers are described in more detail here: http://storage.ted.com/tedx/manuals/tedx_content_guidelines.pdf
Many people have dreams and desires that they let go dormant simply because they don't know how to make it their reality. Understanding the tools and laws that are currently available to them is the one key they are missing. Suzanne has shifted her entire life to create th...
published: 29 Mar 2019
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Bell inequalities: from curiosity to security - Artur Ekert (Oxford) - IKUR Quantum Talks
Professor Artur Ekert traces the fascinating journey of Bell's inequalities in the field of quantum theory. Originating in the seminal work of John Bell in 1964, these inequalities have appeared as a litmus test for the integrity of quantum theory. Despite first skepticism, later experiments, led by figures such as John Clauser and Alain Aspect, showed the violation of Bell's inequalities, opening new perspectives for exploration. Ekert, drawing on his pioneering work, explains how these inequalities went from philosophical reflections to practical tools, especially in the field of cryptography. His presentation highlights the transformative potential of quantum theory, not only in theoretical physics, but also in the revolution of secure communication protocols.
published: 09 Mar 2024
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Control of Quantum Systems
Oriol Romero-Isart works on proposing experiments and developing the underlying theory to bring macroscopic objects, such as nano- and micro-spheres, into the quantum regime. The motivation of this project is that laser light, which has been the ubiquitous tool in the last decades to control and manipulate quantum systems, poses fundamental limitations, such as heating and decoherence due to scattering and absorption of photons, and a minimum length-scale to achieve coherent control due to the diffraction limit. Oriol wants to overcome these obstacles. With his team at the Institute of Quantum Optics and Quantum Information (IQOQI) he proposes experiments and derives the underlying theory in which one uses magnetic fields and superconductors to harness quantum degrees of freedom in order t...
published: 15 Dec 2015
56:33
Lorenza Viola - Quantum Control Theory (Part 1) - CSSQI 2012
Lorenza Viola, Professor of Physics and Astronomy at Dartmouth College, gave a lecture on Introduction to Quantum Control for Quantum Information Processing.
T...
Lorenza Viola, Professor of Physics and Astronomy at Dartmouth College, gave a lecture on Introduction to Quantum Control for Quantum Information Processing.
The lecture is the first of two parts, and was filmed at the Canadian Summer School on Quantum Information, held at the University of Waterloo in June of 2012.
For More:
http://iqc.uwaterloo.ca
http://www.facebook.com/QuantumIQC
http://www.twitter.com/QuantumIQC
QuantumFactory Blog: http://quantumfactory.wordpress.com
https://wn.com/Lorenza_Viola_Quantum_Control_Theory_(Part_1)_Cssqi_2012
Lorenza Viola, Professor of Physics and Astronomy at Dartmouth College, gave a lecture on Introduction to Quantum Control for Quantum Information Processing.
The lecture is the first of two parts, and was filmed at the Canadian Summer School on Quantum Information, held at the University of Waterloo in June of 2012.
For More:
http://iqc.uwaterloo.ca
http://www.facebook.com/QuantumIQC
http://www.twitter.com/QuantumIQC
QuantumFactory Blog: http://quantumfactory.wordpress.com
- published: 28 Nov 2012
- views: 5723
20:47
Scientists Find New Way To Control Quantum Computers
Check out Brian Keating's Channel: https://www.youtube.com/c/DrBrianKeating
Sign up for Brian's Newsletter here: http://briankeating.com/list
Today we’ll talk...
Check out Brian Keating's Channel: https://www.youtube.com/c/DrBrianKeating
Sign up for Brian's Newsletter here: http://briankeating.com/list
Today we’ll talk about climate engineering, quantum computers, how to tell a nuclear bomb from TNT, what an atom really looks like, random keys from cosmic rays, who is filing the most patents and on what, climate labels for food, a tractor beam that didn’t quite live up to my expectations. And of course, the telephone will ring.
👉 Transcript and References on Patreon ➜ https://www.patreon.com/Sabine
💌 Sign up for my weekly science newsletter. It's free! ➜ https://sabinehossenfelder.com/newsletter/
🔗 Join this channel to get access to perks ➜
https://www.youtube.com/channel/UC1yNl2E66ZzKApQdRuTQ4tw/join
00:00 Intro
00:34 Climate Engineering
03:17 Better Spin Control for Quantum Computers
05:45 Was that a Nuclear Bomb?
07:49 Attosecond Imaging of Neon Atoms
09:56 Secure Random Keys from Cosmic Rays
12:17 Patent Report 2022 Holds Some Surprises
15:34 Climate Labels for Food
17:20 Tractor Beam (kind of)
19:12 Into The Impossible With Brian Keating
#science #sciencenews
https://wn.com/Scientists_Find_New_Way_To_Control_Quantum_Computers
Check out Brian Keating's Channel: https://www.youtube.com/c/DrBrianKeating
Sign up for Brian's Newsletter here: http://briankeating.com/list
Today we’ll talk about climate engineering, quantum computers, how to tell a nuclear bomb from TNT, what an atom really looks like, random keys from cosmic rays, who is filing the most patents and on what, climate labels for food, a tractor beam that didn’t quite live up to my expectations. And of course, the telephone will ring.
👉 Transcript and References on Patreon ➜ https://www.patreon.com/Sabine
💌 Sign up for my weekly science newsletter. It's free! ➜ https://sabinehossenfelder.com/newsletter/
🔗 Join this channel to get access to perks ➜
https://www.youtube.com/channel/UC1yNl2E66ZzKApQdRuTQ4tw/join
00:00 Intro
00:34 Climate Engineering
03:17 Better Spin Control for Quantum Computers
05:45 Was that a Nuclear Bomb?
07:49 Attosecond Imaging of Neon Atoms
09:56 Secure Random Keys from Cosmic Rays
12:17 Patent Report 2022 Holds Some Surprises
15:34 Climate Labels for Food
17:20 Tractor Beam (kind of)
19:12 Into The Impossible With Brian Keating
#science #sciencenews
- published: 18 Jan 2023
- views: 186949
12:34
Quantum Control System Basics - Part 2
Module I: System Basics - Segment 1: System Basics 2
Module I: System Basics - Segment 1: System Basics 2
https://wn.com/Quantum_Control_System_Basics_Part_2
Module I: System Basics - Segment 1: System Basics 2
- published: 28 Oct 2014
- views: 6055
12:51
Control vs Quantum Break | Direct Comparison
Direct visual and gameplay comparison of the recently released "Control" and "Quantum Break" on the PC, both with and without Ray Tracing enabled.
#Control #Q...
Direct visual and gameplay comparison of the recently released "Control" and "Quantum Break" on the PC, both with and without Ray Tracing enabled.
#Control #QuantumBreak #Comparison
https://wn.com/Control_Vs_Quantum_Break_|_Direct_Comparison
Direct visual and gameplay comparison of the recently released "Control" and "Quantum Break" on the PC, both with and without Ray Tracing enabled.
#Control #QuantumBreak #Comparison
- published: 31 Aug 2019
- views: 610237
11:04
Quantum Control System Basics - Part 1
Module I: System Basics - Segment 1: System Basics 1
Module I: System Basics - Segment 1: System Basics 1
https://wn.com/Quantum_Control_System_Basics_Part_1
Module I: System Basics - Segment 1: System Basics 1
- published: 28 Oct 2014
- views: 18728
5:56
QCCS Quantum Computing Control System
The Quantum Computing Control System (QCCS) was the first of its kind in 2018, and with the introduction of the SHF line of instruments, it keeps driving innova...
The Quantum Computing Control System (QCCS) was the first of its kind in 2018, and with the introduction of the SHF line of instruments, it keeps driving innovation in quantum computing. In this product video, you will get a concise picture of how the components of the second generation play together to generate value as a system.
Learn more about our products: https://www.zhinst.com/quantum-computing-systems/qccs
Request a demo: https://www.zhinst.com/contact
Follow the latest from Zurich Instruments:
Website: https://www.zhinst.com/
YouTube Channel: https://www.youtube.com/c/Zhinst
LinkedIn: https://www.linkedin.com/company/zurich-instruments-ag/
Twitter: https://twitter.com/Zhinst
https://wn.com/Qccs_Quantum_Computing_Control_System
The Quantum Computing Control System (QCCS) was the first of its kind in 2018, and with the introduction of the SHF line of instruments, it keeps driving innovation in quantum computing. In this product video, you will get a concise picture of how the components of the second generation play together to generate value as a system.
Learn more about our products: https://www.zhinst.com/quantum-computing-systems/qccs
Request a demo: https://www.zhinst.com/contact
Follow the latest from Zurich Instruments:
Website: https://www.zhinst.com/
YouTube Channel: https://www.youtube.com/c/Zhinst
LinkedIn: https://www.linkedin.com/company/zurich-instruments-ag/
Twitter: https://twitter.com/Zhinst
- published: 23 Jun 2022
- views: 4362
16:48
How to use Quantum Physics to Make Your Dreams Your Reality | Suzanne Adams | TEDxUNO
NOTE FROM TED: We've flagged this talk, which was filmed at a TEDx event, because it appears to fall outside TEDx's curatorial guidelines. This talk only repres...
NOTE FROM TED: We've flagged this talk, which was filmed at a TEDx event, because it appears to fall outside TEDx's curatorial guidelines. This talk only represents the speaker’s personal understanding of quantum physics and energy. The concepts discussed in this talk are not based on peer-reviewed scientific evidence or research. TEDx events are independently organized by volunteers. The guidelines we give TEDx organizers are described in more detail here: http://storage.ted.com/tedx/manuals/tedx_content_guidelines.pdf
Many people have dreams and desires that they let go dormant simply because they don't know how to make it their reality. Understanding the tools and laws that are currently available to them is the one key they are missing. Suzanne has shifted her entire life to create the life she has always dreamed of, by simply utilizing quantum physics and the laws of energetics. Suzanne Adams is a best-selling author, thought-leader, and business coach whose teachings on quantum physics, laws of energetics, and women's empowerment have impacted thousands of people from all over the world. She has personally trained with powerful leaders like Lisa Nichols and Gabby Bernstein and has taught over 5,000 successful professionals how to step into their power and achieve fulfillment, including how to make dreams a true reality.
Suzanne has been featured on Fox, NBC, and The Huffington Post for her work helping entrepreneurs reach their highest levels of potential. Now she is passionate about bringing her own personal story, knowledge of quantum physics and the power of human transformation to the TEDx stage. This talk was given at a TEDx event using the TED conference format but independently organized by a local community. Learn more at https://www.ted.com/tedx
https://wn.com/How_To_Use_Quantum_Physics_To_Make_Your_Dreams_Your_Reality_|_Suzanne_Adams_|_Tedxuno
NOTE FROM TED: We've flagged this talk, which was filmed at a TEDx event, because it appears to fall outside TEDx's curatorial guidelines. This talk only represents the speaker’s personal understanding of quantum physics and energy. The concepts discussed in this talk are not based on peer-reviewed scientific evidence or research. TEDx events are independently organized by volunteers. The guidelines we give TEDx organizers are described in more detail here: http://storage.ted.com/tedx/manuals/tedx_content_guidelines.pdf
Many people have dreams and desires that they let go dormant simply because they don't know how to make it their reality. Understanding the tools and laws that are currently available to them is the one key they are missing. Suzanne has shifted her entire life to create the life she has always dreamed of, by simply utilizing quantum physics and the laws of energetics. Suzanne Adams is a best-selling author, thought-leader, and business coach whose teachings on quantum physics, laws of energetics, and women's empowerment have impacted thousands of people from all over the world. She has personally trained with powerful leaders like Lisa Nichols and Gabby Bernstein and has taught over 5,000 successful professionals how to step into their power and achieve fulfillment, including how to make dreams a true reality.
Suzanne has been featured on Fox, NBC, and The Huffington Post for her work helping entrepreneurs reach their highest levels of potential. Now she is passionate about bringing her own personal story, knowledge of quantum physics and the power of human transformation to the TEDx stage. This talk was given at a TEDx event using the TED conference format but independently organized by a local community. Learn more at https://www.ted.com/tedx
- published: 29 Mar 2019
- views: 3156136
57:31
Bell inequalities: from curiosity to security - Artur Ekert (Oxford) - IKUR Quantum Talks
Professor Artur Ekert traces the fascinating journey of Bell's inequalities in the field of quantum theory. Originating in the seminal work of John Bell in 1964...
Professor Artur Ekert traces the fascinating journey of Bell's inequalities in the field of quantum theory. Originating in the seminal work of John Bell in 1964, these inequalities have appeared as a litmus test for the integrity of quantum theory. Despite first skepticism, later experiments, led by figures such as John Clauser and Alain Aspect, showed the violation of Bell's inequalities, opening new perspectives for exploration. Ekert, drawing on his pioneering work, explains how these inequalities went from philosophical reflections to practical tools, especially in the field of cryptography. His presentation highlights the transformative potential of quantum theory, not only in theoretical physics, but also in the revolution of secure communication protocols.
https://wn.com/Bell_Inequalities_From_Curiosity_To_Security_Artur_Ekert_(Oxford)_Ikur_Quantum_Talks
Professor Artur Ekert traces the fascinating journey of Bell's inequalities in the field of quantum theory. Originating in the seminal work of John Bell in 1964, these inequalities have appeared as a litmus test for the integrity of quantum theory. Despite first skepticism, later experiments, led by figures such as John Clauser and Alain Aspect, showed the violation of Bell's inequalities, opening new perspectives for exploration. Ekert, drawing on his pioneering work, explains how these inequalities went from philosophical reflections to practical tools, especially in the field of cryptography. His presentation highlights the transformative potential of quantum theory, not only in theoretical physics, but also in the revolution of secure communication protocols.
- published: 09 Mar 2024
- views: 50
3:46
Control of Quantum Systems
Oriol Romero-Isart works on proposing experiments and developing the underlying theory to bring macroscopic objects, such as nano- and micro-spheres, into the q...
Oriol Romero-Isart works on proposing experiments and developing the underlying theory to bring macroscopic objects, such as nano- and micro-spheres, into the quantum regime. The motivation of this project is that laser light, which has been the ubiquitous tool in the last decades to control and manipulate quantum systems, poses fundamental limitations, such as heating and decoherence due to scattering and absorption of photons, and a minimum length-scale to achieve coherent control due to the diffraction limit. Oriol wants to overcome these obstacles. With his team at the Institute of Quantum Optics and Quantum Information (IQOQI) he proposes experiments and derives the underlying theory in which one uses magnetic fields and superconductors to harness quantum degrees of freedom in order to access an unprecedented parameter regime in the fields of quantum micro- and nanomechanical oscillators, quantum simulation with ultracold atoms, and solid-state quantum information processing.
More: https://iqoqi.at/en/group-page-romero-isart
https://wn.com/Control_Of_Quantum_Systems
Oriol Romero-Isart works on proposing experiments and developing the underlying theory to bring macroscopic objects, such as nano- and micro-spheres, into the quantum regime. The motivation of this project is that laser light, which has been the ubiquitous tool in the last decades to control and manipulate quantum systems, poses fundamental limitations, such as heating and decoherence due to scattering and absorption of photons, and a minimum length-scale to achieve coherent control due to the diffraction limit. Oriol wants to overcome these obstacles. With his team at the Institute of Quantum Optics and Quantum Information (IQOQI) he proposes experiments and derives the underlying theory in which one uses magnetic fields and superconductors to harness quantum degrees of freedom in order to access an unprecedented parameter regime in the fields of quantum micro- and nanomechanical oscillators, quantum simulation with ultracold atoms, and solid-state quantum information processing.
More: https://iqoqi.at/en/group-page-romero-isart
- published: 15 Dec 2015
- views: 3597