• Lockheed Martin: Compact Fusion Research & Development

    Learn more: http://lockheedmartin.com/compactfusion At Lockheed Martin Skunk Works®, we’re making advancements in the development of fusion energy, the ultimate form of renewable power. Our scientists and engineers are looking at the biggest natural fusion reactor for inspiration – the sun. By containing the power of the sun in a small magnetic bottle, we are on the fast track to developing compact fusion reactors to serve the world’s ever-growing energy needs. Learn more about compact fusion: http://lmt.co/1rfsakG

    published: 15 Oct 2014
  • New Machines for Fusion Research | Thomas KLINGER | TEDxBrussels

    Plasma physicist Thomas Klinger is dealing with the fundamental principles of a future power plant, which – like the sun – will produce energy from the fusion of light atomic nuclei. Embedded in an international endeavour, this requires the design and construction of large research facilities as ITER and Wendelstein 7-X to develop the knowledge base for the exploitation of a new clean and abundant primary energy source. Thomas Klinger is head of the "Stellarator Dynamics and Transport" Division and since 2005 scientific director of the project "Wendelstein 7-X" as well as member of the Directorate of IPP. The Wendelstein 7-X (W7-X) reactor is an experimental stellarator (nuclear fusion reactor) built in Greifswald, Germany, by the Max Planck Institute of Plasma Physics (IPP). In April 2...

    published: 09 May 2017
  • Breakthrough in Nuclear Fusion? - Prof. Dennis Whyte

    Nuclear fusion is the holy grail of energy generation because by fusing two hydrogen atoms together into a single helium atom it releases enormous amounts of energy, yet represents a clean, safe, sustainable and secure form of power. The most tried and true approach for generating nuclear fusion energy has been a tokamak fusion reactor, which uses very high density magnetic fields to compress and contain a plasma to 100 million degrees. But none has been able to generate more electricity than it consumes. Until now. Director Whyte will describe the ARC nuclear fusion reactor (shown above right), based on a new superconducting material, for achieving very high density magnetic fields. It will be used as a research center, but could ultimately become a prototype for an inexpensive 200MW...

    published: 25 Feb 2016
  • Nuclear fusion within reach | Michel Laberge | TEDxKC

    This talk was given at a local TEDx event, produced independently of the TED Conferences. Our energy future depends on nuclear fusion, says Michel Laberge. In a lab near Vancouver, Michel and his team are building a prototype fusion reactor that mimics the processes of the sun to produce cheap, clean and abundant energy. Michel Laberge is a renowned plasma physicist and a pioneer in the research and development of fusion energy. In 2002, he founded General Fusion, which has raised $50 million and currently employs 65 people in Vancouver. The company is viewed as a leader in the pursuit of commercial fusion energy. Dr. Laberge has deep experience in electronics, computers, materials, lithography, optics and fabrication. In his work with General Fusion, he has acquired practical experience...

    published: 28 Aug 2014
  • Living on the edge: breakthough fusion research

    PhD candidate Silvia Espinosa is creating a revolutionary theoretical model for the edge of the plasma, which has unrevealed some of the tokamak edge main mysteries of the last decade regarding turbulence reduction.

    published: 15 Nov 2015
  • Is alluring but elusive fusion energy possible in our lifetime?

    Limitless power with virtually no greenhouse gases or radioactive waste. If that sounds too good to be true, that's because it is. For decades, researchers have looked for ways to control, confine and sustain fusion as an energy source. But there has been a lot of progress on a small scale, building on years of physics understanding and progress. Science correspondent Miles O’Brien reports.

    published: 19 Jan 2017
  • MIT's Pathway to Fusion Energy (IAP 2017) - Zach Hartwig

    Fusion energy and MIT's pathway for accelerated demonstration with high-magnetic field tokamaks An introduction to the key concepts of producing clean, safe, and carbon-free electricity from magnetic fusion energy. This talk reviews the present state of fusion energy research and then introduce MIT's proposed pathway to use high-field superconducting magnets to achieve fusion energy at smaller unit size, at lower cost, and on a timescale relevant to climate change.

    published: 06 Feb 2017
  • One step closer to fusion power

    For the first time, researchers show two types of turbulence within plasma that cause significant heat loss. Solving this problem could take the world a step closer to fusion power which has the promise of limitless and relatively clean energy. (Learn more: http://mitsha.re/XmrC3) Video produced and edited: Melanie Gonick/MIT Plasma simulations and Alcator C-Mod footage: Nathan Howard/MIT PSFC and J. Candy/General Atomics Stock media provided by Pond5.com Music sampled from "Rewound" by Chris Zabriskie http://freemusicarchive.org/music/Chr... http://creativecommons.org/licenses/b...

    published: 21 Jan 2016
  • Ultimate Energy : Nuclear Fusion Reactor Research Documentary

    This film produced by the US Energy Research and Development Administration explains the complexity faced by the scientific researcher in an effort to achieve fusion power. Outlines the theory and current experiments being pursued in this complex project, including visits to five major fusion research laboratories, and interviews. The film appears to have been made in the late 1970s. As a work of the US Federal Government, this film is in the public domain.

    published: 16 Sep 2016
  • Energy Of The Future: Nuclear Fusion Research

    http://www.facebook.com/ScienceReason ... Energy of The Future: Nuclear Fusion Research (EFDA-JET). --- Please SUBSCRIBE to Science & Reason: • http://www.youtube.com/FFreeThinker • http://www.youtube.com/ScienceTV • http://www.youtube.com/Best0fScience • http://www.youtube.com/RationalHumanism --- The video "Energy of the Future - Fusion 2100" by the Max Planck Institute of Plasma Physics on behalf of the European Fusion Development Agreement-Joint European Torus (EFDA-JET): http://www.jet.efda.org/ How will a fusion power plant work? At what stage is fusion research today? The film gives an entertaining and informative nine-minutes account in which a school class in 2100 reenacts the development of fusion energy. EFDA-JET - the world's largest nuclear fusion research facility! JET's...

    published: 10 Jan 2009
  • Lockheed Martin Compact Fusion Research & Development

    Looks like some of the big Corporations are looking into this idea, these guys think they are onto a winner. But are not giving anything away.

    published: 06 Feb 2015
  • New research on fusion triple product and power gain - why it's important

    New evidence published this week opens up a route to faster fusion energy development with smaller fusion machines. Find out about the science behind this discovery and why it's so exciting for the fusion field. Modelling work by Dr Alan Costley for Tokamak Energy, indicates that small-scale fusion is the new way forward for fusion power because energy surplus is not linked to reactor size. Read the full paper in the Nuclear Fusion journal: http://bit.ly/1Y4vAcf Video by Dr Melanie Windridge.

    published: 29 Apr 2016
  • New Machines for Fusion Research | Thomas KLINGER | TEDxBrussels

    Plasma physicist Thomas Klinger is dealing with the fundamental principles of a future power plant, which – like the sun – will produce energy from the fusion of . On 10th December 2015 the first helium plasma was produced in the Wendelstein 7-X fusion device at the Max Planck Institute for Plasma Physics (IPP) in . What is the concept underlying the Wendelstein 7-X fusion device? The video, produced from various CADs, illustrates how the device is configured and what . Am 10. Dezember 2015 wurde in der Fusionsanlage Wendelstein 7-X im Max-Planck-Institut für Plasmaphysik in Greifswald das erste Helium-Plasma erzeugt.

    published: 29 Aug 2017
  • LENR for Dummies - A beginner's guide to Cold Fusion Research

    www.lookingforheat.com LENR for Dummies is your introduction to Cold Fusion / Low Energy Nuclear Reactions research. This video explains the basics about the field of technology and it's potential future applications in a very simple fashion. Throughout the video, an experiment is being performed and commented on.

    published: 13 Jun 2016
  • America and The Nuclear Fusion Full Documentary 2016 Movies

    A team of scientists in California announced Wednesday they are one step closer to developing the almost mythical pollution-free, controlled fusion-energy reaction, though the goal of full “ignition” is still far off. Researchers at the federally-funded Lawrence Livermore National Laboratory revealed in a study released Wednesday in the peer-reviewed journal Nature that, for the first time, one of their experiments has yielded more energy out of fusion than was used in the fuel that created the reaction. In a 10-story building the size of three football fields, the Livermore scientists “used 192 lasers to compress a pellet of fuel and generate a reaction in which more energy came out of the fuel core than went into it,” wrote the Washington Post. “Ignition” would mean more energy was prod...

    published: 20 Sep 2016
  • CEDIA 2016: Fusion Research Highlights Premier Movie Servers

    CEDIA 2016: Fusion Research Highlights Premier Movie Servers

    published: 20 Sep 2016
  • Fusion Research and Risk Taking in the 1970s Part 5 of 5

    (Inside Science) -- Dennis Whyte of Massachusetts Institute of Technology explains the fusion research in the 1970s. “So this was, circa, you know, mid 1970s with the oil crisis, the OPEC crisis. And so this was the beginnings of, you know, there was -- this became rapidly a national security issue because there was concerns about whether or not, you know, were we really going to be able to sustain our energy supply and all those things. “So that saw an enormous ramp up actually in fusion energy research. It was sort of like an order of magnitude within the span of a few years. And it was interesting. I mean, I was in grade school then, but my colleagues who were around at the time -- I’ll point out another interesting aspect of that time in fusion’s development. “Because experiments at...

    published: 21 Jul 2017
  • Fusion Research - Control4 Spotify Driver

    This video shows how the Spotify music service works in the Control4 interface.

    published: 03 Apr 2015
  • Is Cold Fusion Real? New Research Says "Yes"!

    http://SimeonHein.com There has been a lot of debate about Cold Fusion energy since Fleischmann and Pons discovery in 1998. Now there is new evidence that supports the phenomenon! Here's my summary of a Cold Fusion lecture presented by Dr. Vittorio Violante of ENEA at a meeting of the Society for Scientific Exploration (ScientificExploration.org) in San Francisco, 2014. He told us that the resonance of the materials makes all the difference. And importantly, Cold Fusion is a relative of LENR, Low Energy Nuclear Reaction--the process that purportedly powers the Rossi E-Cat energy device. Dr. Simeon Hein is the author of the Amazon best-selling books OPENING MINDS and PLANETARY INTELLIGENCE. Subscribe to NewCrystalMind Updates HERE: http://bit.ly/NewCrystalMind Twitter: http://Twitter.com/...

    published: 14 Jun 2014
  • 13. Progress in Fusion Propulsion Research at the University of Alabama in Huntsville

    TVIW 2016, Chattanooga, TN, 2/28/16 - 3/1/16, Plenary talk by Dr. Jason Cassibry, University of Alabama, Huntsville.

    published: 25 Aug 2016
  • New Spotify Plugin for Fusion Research

    Overview of the new Spotify plugin for 2017

    published: 25 May 2017
  • The World's Largest Fusion Experiment

    ITER is an international nuclear fusion research and engineering megaproject, which will be the world's largest magnetic confinement plasma physics experiment. Subscribe for brand new video EVERY SINGLE WEEK! Follow us on social media: ►Twitter: https://twitter.com/fff_thechannel ►Facebook: https://www.facebook.com/FastFuriousFunny/

    published: 13 Sep 2017
  • Fusion Plasma Physics and ITER - An Introduction (1/4)

    "Fusion Plasma Physics in Magnetic Fusion," DJ Campbell (la física básica de la fusión) Fusion Plasma Physics and ITER - An Introduction (1/4) Campbell, David (speaker) (ITER Organization, France) CERN. Geneva (Academic Training Lecture Regular Programme ; 2010-2011) Academic Training Lectures Academic Training Lecture Regular Programme Abstract In November 2006, ministers representing the world's major fusion research communities signed the agreement formally establishing the international project ITER. Sited at Cadarache in France, the project involves China, the European Union (including Switzerland), India, Japan, the Russian Federation, South Korea and the United States. ITER is a critical step in the development of fusion energy: its role is to confirm the feasibility of exploiting ...

    published: 16 May 2012
  • ISE 2016: Fusion Research Details Play-Fi Server

    ISE 2016: Fusion Research Details Play-Fi Server

    published: 09 Feb 2016
developed with YouTube
Lockheed Martin: Compact Fusion Research & Development

Lockheed Martin: Compact Fusion Research & Development

  • Order:
  • Duration: 3:58
  • Updated: 15 Oct 2014
  • views: 945039
videos
Learn more: http://lockheedmartin.com/compactfusion At Lockheed Martin Skunk Works®, we’re making advancements in the development of fusion energy, the ultimate form of renewable power. Our scientists and engineers are looking at the biggest natural fusion reactor for inspiration – the sun. By containing the power of the sun in a small magnetic bottle, we are on the fast track to developing compact fusion reactors to serve the world’s ever-growing energy needs. Learn more about compact fusion: http://lmt.co/1rfsakG
https://wn.com/Lockheed_Martin_Compact_Fusion_Research_Development
New Machines for Fusion Research | Thomas KLINGER | TEDxBrussels

New Machines for Fusion Research | Thomas KLINGER | TEDxBrussels

  • Order:
  • Duration: 11:21
  • Updated: 09 May 2017
  • views: 7246
videos
Plasma physicist Thomas Klinger is dealing with the fundamental principles of a future power plant, which – like the sun – will produce energy from the fusion of light atomic nuclei. Embedded in an international endeavour, this requires the design and construction of large research facilities as ITER and Wendelstein 7-X to develop the knowledge base for the exploitation of a new clean and abundant primary energy source. Thomas Klinger is head of the "Stellarator Dynamics and Transport" Division and since 2005 scientific director of the project "Wendelstein 7-X" as well as member of the Directorate of IPP. The Wendelstein 7-X (W7-X) reactor is an experimental stellarator (nuclear fusion reactor) built in Greifswald, Germany, by the Max Planck Institute of Plasma Physics (IPP). In April 2001 he was appointed as Scientific Member of the Max-Planck Society and Director at the Max-Planck-Institute of Plasma Physics (IPP) in Greifswald. After a research period in France he obtained his PhD in 1994 with a thesis on non-linear plasma dynamics. As a research assistant at the University of Kiel, Klinger was concerned with drift wave turbulence and nonlinear plasma structures. As visiting scientist he conducted research at the Alfvén Laboratory in Stockholm, the Centre de Physique Théorique and the Université Aix-Provence in Marseille and Max-Planck-Institute of Plasma Physics in Garching. He obtained his habilitation in 1998 with a thesis on the control of plasma instabilities. Shortly thereafter he was appointed Professor of Experimental Physics at the Ernst-Moritz Arndt University Greifswald, where he has headed the Institute of Physics as chair from 2000 till 2001. This talk was given at a TEDx event using the TED conference format but independently organized by a local community. Learn more at http://ted.com/tedx
https://wn.com/New_Machines_For_Fusion_Research_|_Thomas_Klinger_|_Tedxbrussels
Breakthrough in  Nuclear Fusion? - Prof. Dennis Whyte

Breakthrough in Nuclear Fusion? - Prof. Dennis Whyte

  • Order:
  • Duration: 1:38:49
  • Updated: 25 Feb 2016
  • views: 151416
videos
Nuclear fusion is the holy grail of energy generation because by fusing two hydrogen atoms together into a single helium atom it releases enormous amounts of energy, yet represents a clean, safe, sustainable and secure form of power. The most tried and true approach for generating nuclear fusion energy has been a tokamak fusion reactor, which uses very high density magnetic fields to compress and contain a plasma to 100 million degrees. But none has been able to generate more electricity than it consumes. Until now. Director Whyte will describe the ARC nuclear fusion reactor (shown above right), based on a new superconducting material, for achieving very high density magnetic fields. It will be used as a research center, but could ultimately become a prototype for an inexpensive 200MW power plant, vaulting nuclear fusion from scientific curiosity to potential commercialization. The ARC reactor is being designed to produce at least 3 times the power required to run it, which has never been done before and is the result of several new technologies which dramatically reduce the size and cost. The biggest breakthrough is a new superconducting material which produces a much higher magnetic field density, yielding a ten-fold increase in fusion power per volume. Molten salt will be used as a liquid cooling blanket for fast heat transfer and easy maintenance. And 3D printing techniques will allow the fabrication of reactor components in shapes that cannot be made by milling machines. The result is a much smaller, lower cost and highly efficient modular power plant with zero emissions and abundant fuel. Dennis Whyte, recently promoted to run MIT’s Nuclear Science and Engineering Department and Director of MIT’s Plasma Science & Fusion Center, works in magnetic fusion and specializes in the interface between the plasma and materials. Dennis received his PhD from the Universite du Quebec in 1993. A Fellow of the American Physical Society, Dennis was awarded the Department of Energy’s Plasma Physics Junior Faculty Award in 2003 and won the International Atomic Energy Agency’s Nuclear Fusion Prize in 2013. He is a two-time winner of the MIT Joel and Ruth Spira Award for teaching excellence. Among his many lectures on fusion energy research, Dennis was an invited speaker at CERAWeek and the National Science Foundation’s Engineering Distinguished Lecturer in 2015.
https://wn.com/Breakthrough_In_Nuclear_Fusion_Prof._Dennis_Whyte
Nuclear fusion within reach | Michel Laberge | TEDxKC

Nuclear fusion within reach | Michel Laberge | TEDxKC

  • Order:
  • Duration: 14:02
  • Updated: 28 Aug 2014
  • views: 222260
videos
This talk was given at a local TEDx event, produced independently of the TED Conferences. Our energy future depends on nuclear fusion, says Michel Laberge. In a lab near Vancouver, Michel and his team are building a prototype fusion reactor that mimics the processes of the sun to produce cheap, clean and abundant energy. Michel Laberge is a renowned plasma physicist and a pioneer in the research and development of fusion energy. In 2002, he founded General Fusion, which has raised $50 million and currently employs 65 people in Vancouver. The company is viewed as a leader in the pursuit of commercial fusion energy. Dr. Laberge has deep experience in electronics, computers, materials, lithography, optics and fabrication. In his work with General Fusion, he has acquired practical experience in plasma physics and with all modern plasma diagnostic techniques. Since 2002 Dr. Laberge has been working on the General Fusion project. He has written numerous scientific papers, has been awarded 10 patents, and has nine more pending. About TEDx, x = independently organized event In the spirit of ideas worth spreading, TEDx is a program of local, self-organized events that bring people together to share a TED-like experience. At a TEDx event, TEDTalks video and live speakers combine to spark deep discussion and connection in a small group. These local, self-organized events are branded TEDx, where x = independently organized TED event. The TED Conference provides general guidance for the TEDx program, but individual TEDx events are self-organized.* (*Subject to certain rules and regulations)
https://wn.com/Nuclear_Fusion_Within_Reach_|_Michel_Laberge_|_Tedxkc
Living on the edge: breakthough fusion research

Living on the edge: breakthough fusion research

  • Order:
  • Duration: 1:36
  • Updated: 15 Nov 2015
  • views: 958
videos
PhD candidate Silvia Espinosa is creating a revolutionary theoretical model for the edge of the plasma, which has unrevealed some of the tokamak edge main mysteries of the last decade regarding turbulence reduction.
https://wn.com/Living_On_The_Edge_Breakthough_Fusion_Research
Is alluring but elusive fusion energy possible in our lifetime?

Is alluring but elusive fusion energy possible in our lifetime?

  • Order:
  • Duration: 9:16
  • Updated: 19 Jan 2017
  • views: 14316
videos
Limitless power with virtually no greenhouse gases or radioactive waste. If that sounds too good to be true, that's because it is. For decades, researchers have looked for ways to control, confine and sustain fusion as an energy source. But there has been a lot of progress on a small scale, building on years of physics understanding and progress. Science correspondent Miles O’Brien reports.
https://wn.com/Is_Alluring_But_Elusive_Fusion_Energy_Possible_In_Our_Lifetime
MIT's Pathway to Fusion Energy (IAP 2017) - Zach Hartwig

MIT's Pathway to Fusion Energy (IAP 2017) - Zach Hartwig

  • Order:
  • Duration: 1:11:40
  • Updated: 06 Feb 2017
  • views: 36966
videos
Fusion energy and MIT's pathway for accelerated demonstration with high-magnetic field tokamaks An introduction to the key concepts of producing clean, safe, and carbon-free electricity from magnetic fusion energy. This talk reviews the present state of fusion energy research and then introduce MIT's proposed pathway to use high-field superconducting magnets to achieve fusion energy at smaller unit size, at lower cost, and on a timescale relevant to climate change.
https://wn.com/Mit's_Pathway_To_Fusion_Energy_(Iap_2017)_Zach_Hartwig
One step closer to fusion power

One step closer to fusion power

  • Order:
  • Duration: 2:04
  • Updated: 21 Jan 2016
  • views: 183995
videos
For the first time, researchers show two types of turbulence within plasma that cause significant heat loss. Solving this problem could take the world a step closer to fusion power which has the promise of limitless and relatively clean energy. (Learn more: http://mitsha.re/XmrC3) Video produced and edited: Melanie Gonick/MIT Plasma simulations and Alcator C-Mod footage: Nathan Howard/MIT PSFC and J. Candy/General Atomics Stock media provided by Pond5.com Music sampled from "Rewound" by Chris Zabriskie http://freemusicarchive.org/music/Chr... http://creativecommons.org/licenses/b...
https://wn.com/One_Step_Closer_To_Fusion_Power
Ultimate Energy : Nuclear Fusion Reactor Research Documentary

Ultimate Energy : Nuclear Fusion Reactor Research Documentary

  • Order:
  • Duration: 28:37
  • Updated: 16 Sep 2016
  • views: 3868
videos
This film produced by the US Energy Research and Development Administration explains the complexity faced by the scientific researcher in an effort to achieve fusion power. Outlines the theory and current experiments being pursued in this complex project, including visits to five major fusion research laboratories, and interviews. The film appears to have been made in the late 1970s. As a work of the US Federal Government, this film is in the public domain.
https://wn.com/Ultimate_Energy_Nuclear_Fusion_Reactor_Research_Documentary
Energy Of The Future: Nuclear Fusion Research

Energy Of The Future: Nuclear Fusion Research

  • Order:
  • Duration: 9:03
  • Updated: 10 Jan 2009
  • views: 26340
videos
http://www.facebook.com/ScienceReason ... Energy of The Future: Nuclear Fusion Research (EFDA-JET). --- Please SUBSCRIBE to Science & Reason: • http://www.youtube.com/FFreeThinker • http://www.youtube.com/ScienceTV • http://www.youtube.com/Best0fScience • http://www.youtube.com/RationalHumanism --- The video "Energy of the Future - Fusion 2100" by the Max Planck Institute of Plasma Physics on behalf of the European Fusion Development Agreement-Joint European Torus (EFDA-JET): http://www.jet.efda.org/ How will a fusion power plant work? At what stage is fusion research today? The film gives an entertaining and informative nine-minutes account in which a school class in 2100 reenacts the development of fusion energy. EFDA-JET - the world's largest nuclear fusion research facility! JET's unique features allow us to explore the unknown; to investigate fusion's potential as a safe, clean, and virtually limitless energy source for future generations. Situated at Culham in the UK, the Joint European Torus is run as a collaboration between all European fusion organisations and with the participation of scientists from around the globe. JET, the Joint European Torus, is situated at the Culham Science Centre, Oxfordshire, UK. It is collectively used by EURATOM Associations from more than 20 European countries. The JET device is currently the world's largest Tokamak. The JET facilities include plasma heating systems capable of delivering up to 30 MW of power, an Active Gas Handling System and a Beryllium Handling Facility providing JET with a unique Tritium and Beryllium capability, respectively. Over the next few years JET's technical capabilities will be significantly enhanced in order to optimally support ITER's final detail design and in preparation for exploiting ITER. The European Fusion Development Agreement (EFDA) was established to provide a framework for magnetic confinement controlled thermonuclear fusion research and development within the European Union. Fusion Basics: Nuclear reactions are capable of releasing huge quantities of energy. Such reactions can be achieved either by the nuclear fission (splitting) of elements of high atomic number or by the nuclear fusion (joining) of elements with low atomic number. In astrophysics, fusion reactions power the stars and produce all but the lightest elements. The most efficient reaction to utilise fusion o earth is the DT fusion reaction in which nuclei of the two Hydrogen isotopes Deuterium (D) and Tritium (T) are forced together to overcome the rejection due to their electric charge and to allow them to fuse due to the strong nuclear binding force between them. The product of this reaction is a Helium nucleus and a neutron, both with very high kinetic energy. To achieve the temperatures, densities and confinement times required to provoke sufficient fusion reactions, various magnetic confinement devices have been designed and researched. Among these the tokamak is the most highly developed. http://www.jet.efda.org/ .
https://wn.com/Energy_Of_The_Future_Nuclear_Fusion_Research
Lockheed Martin Compact Fusion Research & Development

Lockheed Martin Compact Fusion Research & Development

  • Order:
  • Duration: 0:59
  • Updated: 06 Feb 2015
  • views: 697
videos
Looks like some of the big Corporations are looking into this idea, these guys think they are onto a winner. But are not giving anything away.
https://wn.com/Lockheed_Martin_Compact_Fusion_Research_Development
New research on fusion triple product and power gain - why it's important

New research on fusion triple product and power gain - why it's important

  • Order:
  • Duration: 5:24
  • Updated: 29 Apr 2016
  • views: 5140
videos
New evidence published this week opens up a route to faster fusion energy development with smaller fusion machines. Find out about the science behind this discovery and why it's so exciting for the fusion field. Modelling work by Dr Alan Costley for Tokamak Energy, indicates that small-scale fusion is the new way forward for fusion power because energy surplus is not linked to reactor size. Read the full paper in the Nuclear Fusion journal: http://bit.ly/1Y4vAcf Video by Dr Melanie Windridge.
https://wn.com/New_Research_On_Fusion_Triple_Product_And_Power_Gain_Why_It's_Important
New Machines for Fusion Research | Thomas KLINGER | TEDxBrussels

New Machines for Fusion Research | Thomas KLINGER | TEDxBrussels

  • Order:
  • Duration: 30:49
  • Updated: 29 Aug 2017
  • views: 47
videos
Plasma physicist Thomas Klinger is dealing with the fundamental principles of a future power plant, which – like the sun – will produce energy from the fusion of . On 10th December 2015 the first helium plasma was produced in the Wendelstein 7-X fusion device at the Max Planck Institute for Plasma Physics (IPP) in . What is the concept underlying the Wendelstein 7-X fusion device? The video, produced from various CADs, illustrates how the device is configured and what . Am 10. Dezember 2015 wurde in der Fusionsanlage Wendelstein 7-X im Max-Planck-Institut für Plasmaphysik in Greifswald das erste Helium-Plasma erzeugt.
https://wn.com/New_Machines_For_Fusion_Research_|_Thomas_Klinger_|_Tedxbrussels
LENR for Dummies - A beginner's guide to Cold Fusion Research

LENR for Dummies - A beginner's guide to Cold Fusion Research

  • Order:
  • Duration: 29:20
  • Updated: 13 Jun 2016
  • views: 4207
videos
www.lookingforheat.com LENR for Dummies is your introduction to Cold Fusion / Low Energy Nuclear Reactions research. This video explains the basics about the field of technology and it's potential future applications in a very simple fashion. Throughout the video, an experiment is being performed and commented on.
https://wn.com/Lenr_For_Dummies_A_Beginner's_Guide_To_Cold_Fusion_Research
America and The Nuclear Fusion Full Documentary 2016 Movies

America and The Nuclear Fusion Full Documentary 2016 Movies

  • Order:
  • Duration: 1:54:57
  • Updated: 20 Sep 2016
  • views: 11274
videos
A team of scientists in California announced Wednesday they are one step closer to developing the almost mythical pollution-free, controlled fusion-energy reaction, though the goal of full “ignition” is still far off. Researchers at the federally-funded Lawrence Livermore National Laboratory revealed in a study released Wednesday in the peer-reviewed journal Nature that, for the first time, one of their experiments has yielded more energy out of fusion than was used in the fuel that created the reaction. In a 10-story building the size of three football fields, the Livermore scientists “used 192 lasers to compress a pellet of fuel and generate a reaction in which more energy came out of the fuel core than went into it,” wrote the Washington Post. “Ignition” would mean more energy was produced than was used in the entire process. "We're closer than anyone's gotten before," said Omar Hurricane, a physicist at Livermore and lead author of the study. "It does show there's promise." The process ultimately mimics the processes in the core of a star inside the laboratory’s hardware. Nuclear fusion, which is how the sun is heated, creates energy when atomic nuclei fuse and form a larger atom. "This isn't like building a bridge," Hurricane told USA Today in an interview. "This is an exceedingly hard problem. You're basically trying to produce a star, on a small scale, here on Earth." A fusion reactor would operate on a common form of hydrogen found in sea water and create minimal nuclear waste while not being nearly as volatile as a traditional nuclear-fission reactor. Fission, used in nuclear power plants, works by splitting atoms. Hurricane said he does not know how long it will take to reach that point, where fusion is a viable energy source. "Picture yourself halfway up a mountain, but the mountain is covered in clouds," he told reporters on a conference call Wednesday. “And then someone calls you on your satellite phone and asks you, ‘How long is it going to take you to climb to the top of the mountain?’ You just don’t know.” The beams of the 192 lasers Livermore used can pinpoint extreme amounts of energy in billionth-of-a-second pulses on any target. Hurricane said the energy produced by the process was about twice the amount that was in the fuel of the plastic-capsule target. Though the amount of energy yielded equaled only around 1 percent of energy delivered by the lasers to the capsule to ignite the process. “When briefly compressed by the laser pulses, the isotopes fused, generating new particles and heating up the fuel further and generating still more nuclear reactions, particles and heat,” wrote the Washington Post, adding that the feedback mechanism is known as “alpha heating.” Debbie Callahan, co-author of the study, said the capsule had to be compressed 35 times to start the reaction, “akin to compressing a basketball to the size of a pea,” according to USA Today. While applauding the Livermore team’s findings, fusion experts added researchers have “a factor of about 100 to go.” "These results are still a long way from ignition, but they represent a significant step forward in fusion research," said Mark Herrmann of the Sandia National Laboratories' Pulsed Power Sciences Center. "Achieving pressures this large, even for vanishingly short times, is no easy task." Livermore is the site of the multi-billion-dollar National Ignition Facility, funded by the National Nuclear Security Administration. Fusion experiments aren’t the only function of the lab; for example, it also studies the processes of nuclear weapon explosions. Long-pursued by scientists dating back to Albert Einstein, fusion energy does not emit greenhouse gases or leave behind radioactive waste. Since the 1940s, researchers have employed magnetic fields to contain high-temperature hydrogen fuel. Laser use began in the 1970s. "We have waited 60 years to get close to controlled fusion," said, Steve Cowley, of the United Kingdom's Culham Center for Fusion Energy. He added scientists are "now close" with both magnets and lasers. "We must keep at it." Stewart Prager - director of the Princeton Plasma Physics Laboratory, which studies fusion using magnets - told the Post he was optimistic about fusion energy’s future.
https://wn.com/America_And_The_Nuclear_Fusion_Full_Documentary_2016_Movies
CEDIA 2016: Fusion Research Highlights Premier Movie Servers

CEDIA 2016: Fusion Research Highlights Premier Movie Servers

  • Order:
  • Duration: 0:43
  • Updated: 20 Sep 2016
  • views: 88
videos
CEDIA 2016: Fusion Research Highlights Premier Movie Servers
https://wn.com/Cedia_2016_Fusion_Research_Highlights_Premier_Movie_Servers
Fusion Research and Risk Taking in the 1970s Part 5 of 5

Fusion Research and Risk Taking in the 1970s Part 5 of 5

  • Order:
  • Duration: 2:10
  • Updated: 21 Jul 2017
  • views: 215
videos
(Inside Science) -- Dennis Whyte of Massachusetts Institute of Technology explains the fusion research in the 1970s. “So this was, circa, you know, mid 1970s with the oil crisis, the OPEC crisis. And so this was the beginnings of, you know, there was -- this became rapidly a national security issue because there was concerns about whether or not, you know, were we really going to be able to sustain our energy supply and all those things. “So that saw an enormous ramp up actually in fusion energy research. It was sort of like an order of magnitude within the span of a few years. And it was interesting. I mean, I was in grade school then, but my colleagues who were around at the time -- I’ll point out another interesting aspect of that time in fusion’s development. “Because experiments at that point had been at rather small scale, they’d been kind of, you know, let’s take a look at this, there were many different kinds of configurations, and as I said, the tokamak all of a sudden appeared as this one. It’s like, ‘wow, the Russians showed that this really was working like 10 times better than all the other kinds of ones.’ “My colleagues pointed out about the risks that they were willing to take back then because there was an urgency about time. And what does this mean? They took steps about building devices that were a significantly more difficult engineering challenge, making much higher magnetic fields, coming up with heating sources for the plasma that had never really been tried before. “But because there was that urgency of time, they were willing to take technology risks, actually that today I would argue we don’t take anymore. And this kind of comes back to what we’re arguing for here at MIT, is that it is the ability, for instance, to make superconducting magnetic coils, the ability to make materials, like through things like additive manufacturing, 3-D printing. These kinds of extraordinary advances mean, that in our opinion we need to start taking more technology risks about how we -- because if we -- even though those are engineering risks, we believe that that makes a faster, more attractive product because time in some sense has become one of our biggest enemies in this. We need to start accelerating fusion. That’s why we’re excited in fact by some of these new opportunities.” Part 1- The Future of Fusion Energy (https://www.youtube.com/watch?v=5qHHo...) Part 2- Why Is Fusion Energy Promising? (https://www.youtube.com/watch?v=z_DD7...) Part 3- The Future of Fusion (https://www.youtube.com/watch?v=8GwuO...) Part 4- Fusion in the Early Years (https://www.youtube.com/watch?v=Rxqh8...) Facebook: https://www.facebook.com/InsideScience/ Twitter: https://twitter.com/insidescience Website: https://www.insidescience.org/
https://wn.com/Fusion_Research_And_Risk_Taking_In_The_1970S_Part_5_Of_5
Fusion Research - Control4 Spotify Driver

Fusion Research - Control4 Spotify Driver

  • Order:
  • Duration: 3:24
  • Updated: 03 Apr 2015
  • views: 2823
videos
This video shows how the Spotify music service works in the Control4 interface.
https://wn.com/Fusion_Research_Control4_Spotify_Driver
Is Cold Fusion Real? New Research Says "Yes"!

Is Cold Fusion Real? New Research Says "Yes"!

  • Order:
  • Duration: 6:27
  • Updated: 14 Jun 2014
  • views: 18255
videos
http://SimeonHein.com There has been a lot of debate about Cold Fusion energy since Fleischmann and Pons discovery in 1998. Now there is new evidence that supports the phenomenon! Here's my summary of a Cold Fusion lecture presented by Dr. Vittorio Violante of ENEA at a meeting of the Society for Scientific Exploration (ScientificExploration.org) in San Francisco, 2014. He told us that the resonance of the materials makes all the difference. And importantly, Cold Fusion is a relative of LENR, Low Energy Nuclear Reaction--the process that purportedly powers the Rossi E-Cat energy device. Dr. Simeon Hein is the author of the Amazon best-selling books OPENING MINDS and PLANETARY INTELLIGENCE. Subscribe to NewCrystalMind Updates HERE: http://bit.ly/NewCrystalMind Twitter: http://Twitter.com/SimeonHein Facebook: http://Facebook.com/NewCrystalMind Amazon Author page: http://bit.ly/SimeonAmazon
https://wn.com/Is_Cold_Fusion_Real_New_Research_Says_Yes
13. Progress in Fusion Propulsion Research at the University of Alabama in Huntsville

13. Progress in Fusion Propulsion Research at the University of Alabama in Huntsville

  • Order:
  • Duration: 26:35
  • Updated: 25 Aug 2016
  • views: 354
videos
TVIW 2016, Chattanooga, TN, 2/28/16 - 3/1/16, Plenary talk by Dr. Jason Cassibry, University of Alabama, Huntsville.
https://wn.com/13._Progress_In_Fusion_Propulsion_Research_At_The_University_Of_Alabama_In_Huntsville
New Spotify Plugin for Fusion Research

New Spotify Plugin for Fusion Research

  • Order:
  • Duration: 1:55
  • Updated: 25 May 2017
  • views: 312
videos
Overview of the new Spotify plugin for 2017
https://wn.com/New_Spotify_Plugin_For_Fusion_Research
The World's Largest Fusion Experiment

The World's Largest Fusion Experiment

  • Order:
  • Duration: 6:01
  • Updated: 13 Sep 2017
  • views: 4505
videos
ITER is an international nuclear fusion research and engineering megaproject, which will be the world's largest magnetic confinement plasma physics experiment. Subscribe for brand new video EVERY SINGLE WEEK! Follow us on social media: ►Twitter: https://twitter.com/fff_thechannel ►Facebook: https://www.facebook.com/FastFuriousFunny/
https://wn.com/The_World's_Largest_Fusion_Experiment
Fusion Plasma Physics and ITER - An Introduction (1/4)

Fusion Plasma Physics and ITER - An Introduction (1/4)

  • Order:
  • Duration: 1:11:30
  • Updated: 16 May 2012
  • views: 20710
videos
"Fusion Plasma Physics in Magnetic Fusion," DJ Campbell (la física básica de la fusión) Fusion Plasma Physics and ITER - An Introduction (1/4) Campbell, David (speaker) (ITER Organization, France) CERN. Geneva (Academic Training Lecture Regular Programme ; 2010-2011) Academic Training Lectures Academic Training Lecture Regular Programme Abstract In November 2006, ministers representing the world's major fusion research communities signed the agreement formally establishing the international project ITER. Sited at Cadarache in France, the project involves China, the European Union (including Switzerland), India, Japan, the Russian Federation, South Korea and the United States. ITER is a critical step in the development of fusion energy: its role is to confirm the feasibility of exploiting magnetic confinement fusion for the production of energy for peaceful purposes by providing an integrated demonstration of the physics and technology required for a fusion power plant. The ITER tokamak is designed to study the "burning plasma" regime in deuterium-tritium (D-T) plasmas by achieving a fusion amplification factor, Q (the ratio of fusion output power to plasma heating input power), of 10 for several hundreds of seconds with a nominal fusion power output of 500MW. It is also intended to allow the study of steady-state plasma operation at Q≥5 by means of non-inductive current drive, preparing the way for fusion power plants to operate continuously. ITER relies on the "tokamak" magnetic confinement concept. In the first of 2 lectures, the essential elements of fusion power production in terrestrial plasmas will be summarized, key physics concepts of the magnetic confinement approach to the production of fusion plasmas introduced and the principal magnetic confinement configurations illustrated. The major characteristics of the tokamak will be discussed and the basis for the estimation of fusion power production in magnetically confined plasmas outlined. A brief comparison with the main physics and technology concepts relating to inertial confinement fusion will also be presented. The lecture will conclude with an introduction to the major elements of the ITER design. The second lecture will explore some of the key physics phenomena which govern the behaviour of magnetic fusion plasmas and which have been the subject of intense research during the past 50 years: plasma confinement, magnetohydrodynamic stability and plasma-wall interactions encompass the major areas of plasma physics which must be understood to assemble an overall description of fusion plasma behaviour. In addition, as fusion plasmas approach the "burning plasma" regime, where internal heating due to fusion products dominates other forms of heating, the physics of the interaction between the α-particles produced by D-T fusion reactions and the thermal "background" plasma becomes significant. This lecture will also introduce the basic physics of fusion plasma production, plasma heating and current drive, and plasma measurements ("diagnostics"). http://cdsweb.cern.ch/record/1343736 http://indico.cern.ch/conferenceDisplay.py?confId=116345 http://cds.cern.ch/record/1343736
https://wn.com/Fusion_Plasma_Physics_And_Iter_An_Introduction_(1_4)
ISE 2016: Fusion Research Details Play-Fi Server

ISE 2016: Fusion Research Details Play-Fi Server

  • Order:
  • Duration: 1:03
  • Updated: 09 Feb 2016
  • views: 182
videos
ISE 2016: Fusion Research Details Play-Fi Server
https://wn.com/Ise_2016_Fusion_Research_Details_Play_Fi_Server
×