David Custis Kimball - blog
You: Why Dave; why now?
Me: Well, I've two talented kids; the younger mentioned my stopping with the lectures. Then enthusiastically asked, 'Dad, can I help you set up a blog?' Moments later, Me: 'OK, that's a great idea, thinkin' they might just read it someday.
me ---> 'Gaarr of Blog' <---
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Matters of Import & Timely Expertise
repressing gossip and hate-speech.
An Unmapped Ponderocity:
To say: '"He is a man of truth," is to say nothing; to say: "He is a man of of," is to state an elementary truth of logic.'
Winston Davids, 1969 - Trinity College Valedictorian - 1970; known endeavor: actuarial contributions to The Donald; since has contacted me and sadly is quite ill. Ask prayers for recovery; thanks for his brilliance and music.
Physics, Science, History, Psycho physics
Now what if these particle pairs were neutrino-anti-neutrino pairs, aka Dirac photons. Well, I just found a fellow who is working on a new theory of light; I met him 43 years ago in Tuebingen; we wondered with his wife and perhaps child (I’m a little foggy) thru the Black Forest, each of us with two walking sticks so we were really truckin’. He would spot a lake, and drop to his skivies and jump in; I think I followed as I remember doing something similar in a lake near Boston a couple of year later; and almost stopped breathing it was so cold… I hope to do some reading of some of his works, the very notable is called ‘Nonperturbative Quantum Field Theory and the Structure of Matter’, 2001 by Borne, Stumpf, and Lockak.
And I’m wondering if something similar, but on a lower energy scale happens in the eye. Notice how a red-eye appears in humans with a big flash and their eyes are dilated; and what about the dog’s green eye when it looks at you intently…
Stand by….
First Observation of Hawking Radiation
For some time now, astronomers have been scanning the heavens looking for signs of Hawking radiation, predicted it in 1974. So far, they’ve come up with zilch. Today, it looks as if they’ve been beaten to the punch by a group of physicists who say they’ve created Hawking radiation in their lab. These guys reckon they can produce Hawking radiation in a repeatable unambiguous way, finally confirming Hawking’s prediction. Here’s how they did it.
Physicists have long realised that on the smallest scale, space is filled with a bubbling melee of particles leaping in and out of existence. These particles form as particle-antiparticle pairs and rapidly annihilate, returning their energy to the vacuum.
Hawking’s prediction came from thinking about what might happen to particle pairs that form at the edge of a black hole. He realised that if one of the pair were to cross the event horizon, it could never return. But its partner on the other side would be free to go. To an observer it would look as if the black hole were producing a constant stream of quantum particles, which became known as Hawking radiation.
Since then, other physicists have pointed out that black holes aren’t the only place where event horizons can form. Any medium in which waves travel can support an event horizon and in theory, it should be possible to see Hawking radiation in these media too.
Now, physicists at the University of Milan say they’ve produced Hawking radiation by firing an intense laser pulse through a so-called nonlinear material, that is one in which the light itself changes the refractive index of the medium. As the pulse moves through the material, so too does the change in refractive index, creating a kind of bow wave in which the refractive index is much higher than the surrounding material.
This increase in refractive index causes any light heading into it to slow down. By choosing appropriate conditions, it is possible to bring the light waves to a standstill. This creates a horizon beyond which light cannot penetrate, what physicists call a white hole event horizon, the inverse of a black hole.
White holes aren’t so different to black holes. And it’s not hard to imagine what happens to particle pairs that form at this type of horizon. If one of the pair crosses the horizon, it can make no headway and so becomes trapped. The other is free to go. So the horizon ought to look as if it is generating quantum particles.
It is this radiation that physicists say they’ve seen by watching from the side as a high power infrared laser pulse ploughs through a lump of fused silica. That’s an astounding claim and one that many physicists will want to pour over before popping any champagne corks.
Why is it important? One reason is that Hawking radiation is the only known a way in which black holes can evaporate and so a proof of its existence will have profound effects for cosmology and the way the universe will end. And now that it’s been observed once, expect a rash of other announcemetns as researchers race to repeat the result.
Image: In the experimental set-up, a laser beam strikes a sample of fused silica glass (FS). An imaging lens (I) collects the photons emitted at 90 degrees and sends them to a spectrometer and CCD camera.
• Source: The Physics ArXiv Blog • The paper is available at arXiv.org
