Segre Lecture: How did the universe begin?

July 8th, 2013 · Comments Off on Segre Lecture: How did the universe begin?

Andrew Lange gives Segre Lecture on How the universe began, at UC-Berkeley.

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Tags: Science & Health · Space & Astronomy · Video

Brian Greene Interview: The multiverse as a block of swiss cheese…

July 8th, 2013 · Comments Off on Brian Greene Interview: The multiverse as a block of swiss cheese…

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Tags: Books · Science & Health · Space & Astronomy · Video

The Fabric of the Cosmos: The Illusion of Time

July 8th, 2013 · Comments Off on The Fabric of the Cosmos: The Illusion of Time

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Hadrons Running In Circles

November 21st, 2009 · Comments Off on Hadrons Running In Circles

As if to say, “Hi, the LHC is up and proton beams are zipping about the accelerator, smashing into one another. And, by the way, I’m using a Macbook Pro.” I have a feeling you won’t find black holes, or Windows 7 at the LHC. Hells yeah! [Read the article.]

LHC,Macbook Pro,November,2009

[Source]

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Tags: Mac · Science & Health

Rare Isotope Rap

June 15th, 2009 · Comments Off on Rare Isotope Rap

I’ve blogged about how cool the FRIB is going to be, now let Alpinekat break it down:

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Tags: Science & Health · Video

The National Ignition Facility

June 7th, 2009 · 2 Comments

Finally, fusion in a jar… I am excited about science. Can you tell? It’s 2:27 am and I’ve spent an hour writing up this article, if that’s any indication. (I did just have my fifth glass of Mountain Dew, however.)

I recently blogged about MSU being chosen as the DOE Facility for Rare Isotope Beams (FRIB). Another facility in the news that I am enthusiastic about is the Lawrence Livermore National Ignition Facility (NIF). I think the NIF is NIFTY!

NIF’s 192 giant lasers, housed in a ten-story building the size of three football fields, will deliver at least 60 times more energy than any previous laser system. When all of its beams are fully operational, NIF will focus nearly two million joules of ultraviolet laser energy on a tiny target in the center of its target chamber – creating conditions similar to those that exist only in the cores of stars and giant planets and inside a nuclear weapon. The resulting fusion reaction will release many times more energy than the laser energy required to initiate the reaction.

nif

After several decades of studying fusion and failing to sustain reactions (ignite fusion) in a commercially viable reactor, this effort will up the ante by firing the laser with five hundred trillion watts of power at a small hydrogen fuel cell, called a hohlraum, containing a few milligrams of hydrogen/deuterium fuel. In this indirect drive method, the lasers heat up the tiny metal cylinder, the hohlraum, which in turn generates intense, and uniform x-rays which compress the hydrogen fuel at 100,000,000,000 atmospheres in just a millionth of a second. The fusion reaction should release more energy than was put in, making fusion a highly attractive alternative to fossil fuels, since is a much more efficient reaction and essentially clean, compared to the process of splitting apart atoms, nuclear fission (used in nuclear reactors today).

In addition to its focus on achieving ignition, and eventually showing how sustained inertial fusion can become an economically feasible (an essentially limitless fuel source), NIF will be used for other photon science missions, such as gaining a better understanding of dark energy, black holes, cosmic rays, and the stelar synthesis of heavy elements.

[Wikipedia National Ignition Facility Website]

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Brian Greene on Strings at TED

March 29th, 2009 · Comments Off on Brian Greene on Strings at TED

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NSCL Awarded FRIB by US-DOE

February 26th, 2009 · Comments Off on NSCL Awarded FRIB by US-DOE

Before Christmas, DOE awarded the contract for a “Facility for Rare Isotope Beams” (FRIB) to Michigan State University, National Superconducting Cyclotron Laboratory (NSCL). This is pretty good news for MSU, meaning a new $550 million facility being built over the next ten years. This project is expected to bring $1 billion in economic activity and create 400 new jobs. In addition, this facility will provide an intense beam of heavy ions to address leading edge questions of nuclear structure.

Congratulations to MSU and my old friends and colleagues who work at MSU or attended graduate school there in the 1980s when I was a physics grad student working at NSCL.

[Read the article.]

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Tags: Science & Health