Sunday, November 6, 2011

Faster-Than-Light Neutrino Update: What's Going on Behind the Scenes?

via Boing Boing by Maggie Koerth-Baker on 10/31/11

The publication process for a research paper about physics works a little differently than other subjects. That's because of arXiv http://arxiv.org/. Funded by Cornell University, this site posts research papers, before they're formally published in a scientific journal. Unlike most scientific journals, which charge big fees for subscriptions or even to view a single paper, arXiv is free and open to the public. You can read everything published there—more than 700,000 papers about physics, math, computer science, and more. The other big difference: arXiv isn't peer reviewed. At least, not ahead of time.


A lot of the time, when you read a newspaper article about a new study in one of those fields, the study hasn't actually yet been published in a peer-reviewed journal. It's just been posted to arXiv, which sort of becomes a crowd-sourced peer review peer review of its own. Especially for headline-grabbing research making big, bold claims.

That's the background you need to understand what's going on right now with the study that claimed to find neutrinos traveling faster than the speed of light. That announcement was made in an arXiv paper. Putting those results on arXiv was as much a way of saying, "Woah, we just found something crazy, please tell us if you see something we've done wrong," as it was a formal declaration of scientific discovery.

Since that paper was published in September, there have been more than 80 follow-up papers, also published on arXiv, offering criticism of the original research or proposing theoretical explanations of how that seemingly crazy finding could fit into physics as we know it. And all of this is happening before anybody has gone through the peer-review publishing process.

That's why it's not terribly weird that you're now hearing all sorts of criticism of the original FTL neutrino findings. That's what was supposed to happen. It's also not terribly weird that the original researchers have announced that they're going to re-do the experiment themselves, taking into account some of the big criticisms brought up on arXiv. The BBC explains what will be done differently this time:

    The neutrinos that emerge at Gran Sasso start off as a beam of proton particles at Cern. Through a series of complex interactions, neutrino particles are generated from this beam and stream through the Earth's crust to Italy.

    Originally, Cern fired the protons in a long pulse lasting 10 microseconds (10 millionths of a second). The neutrinos showed up 60 nanoseconds (60 billionths of a second) earlier than light would have over the same distance.

    However, the time measurement is not direct; the researchers cannot know how long it took an individual neutrino to travel from Switzerland to Italy. Instead, the measurement must be performed statistically: the scientists superimpose the neutrinos' "arrival times" on the protons' "departure times", over and over again and taking an average.

    But some physicists say that any wrong assumptions made when relating these data sets could produce a misleading result. This should be addressed by the new measurements, in which protons are sent in a series of short bursts - lasting just one or two nanoseconds, thousands of times shorter - with a large gap (roughly 500 nanoseconds) in between each burst. This system, says Dr Bertolucci, is more efficient: "For every neutrino event at Gran Sasso, you can connect it unambiguously with the batch of protons at Cern," he explained.

By taking these criticisms into account now, the FTL neutrino researchers are doing sort of a pre-peer-review peer review. If their new experiment yields the same results, it makes the claim stronger and makes a traditional journal more likely to publish the results. As a bonus: Those results will already have been tested against the most obvious criticisms. If FTL neutrinos make it to a peer-reviewed journal, there will be a much greater likelihood that what's being published is actually worth paying attention to. If they don't, there's a well-established record of how smart people got something wrong—valuable to future researchers, even though it wouldn't be likely to pass muster in a journal.

Meanwhile, because none of these papers had to go through the lengthy (and costly) traditional publishing process, we've been able to see both the weird finding and the critical evaluations far faster than we otherwise would have. And because the weird finding was made available sooner, there will be independent researchers trying to replicate it sooner. In fact, there's a good chance that, if the FTL neutrino researchers decide to go ahead and publish their results in a peer-reviewed journal, several other, independent teams will be well on their way to replicating the results (or not) by the time that paper is printed.

So if there's one thing you should be taking away from all the fuss over FTL neutrinos, it's this: Science benefits when scientists have more than one way to share information with each other.

Image: Science Centre at CERN, a Creative Commons Attribution Share-Alike (2.0) image from johnjobby's photostream
   

Saturday, November 5, 2011

Italian Eggplant Casserole with Cashew-Tofu Ricotta

By Kathy Hester

Italian Eggplant Casserole - Slow CookerThis is my healthy, gluten-free substitute for eggplant parmigiana. Not frying the eggplant saves time and calories, and both of those can be at a premium. Its very saucy and perfect over pasta. Recipe from The Vegan Slow Cooker by Kathy Hester, reprinted by permission of the author. Photo by Cara Lyons of Cara’s Cravings.
Serves: 8

For the Cashew-Tofu Ricotta:

    1/2 cup cashews
    1/2 cup nutritional yeast (*use gluten-free)
    3 cloves garlic
    1 package (15 ounces) firm tofu
    1/2 cup unsweetened nondairy milk
    1/2 to 1 teaspoon salt (to taste)
    Pepper, to taste

Remaining ingredients:

    1 large eggplant, thinly sliced
    1 jar (25 ounces) marinara sauce, store bought or homemade
    Cooked pasta (*use gluten-free pasta), for serving

The night before:

To make the ricotta: In a food processor or blender, combine all the ricotta ingredients. Blend until smooth and creamy. Store the ricotta and the sliced eggplant in separate containers in the fridge.

In the morning:

Oil the crock of your slow cooker and pour in one-third of the marinara sauce. Top with half of the eggplant, half of the ricotta, and another one-third of the sauce. Repeat the layers once more, then top with the remaining sauce. Cook on low for 6 to 8 hours. Serve over the pasta.

If your slow cooker does not run hot and the final product is too watery, prop up the lid on the handle of a wooden spoon and turn the slow cooker to high. In 30 minutes to 1 hour most of the water will evaporate.

Total Prep Time: 15 minutes

Total Cooking Time: 6 to 8 hours

Kathy Hester is the author of The Vegan Slow Cooker. Visit her on the web at Healthy Slow Cooking and Busy Vegan.


Occupy LA!

Here are some photos of Los Angeles Occupy LA. There is hope in our human being heart right now.









Sperm Whales Really Do Learn From Each Other

By Brandon Keim Email Author
 November 3, 2011
  2:10 pm     

Sperm whales, Earth’s biggest-brained animals, live in far-flung clans with lifestyles so different and vocalizations so complex that it’s natural to think they have culture.

But is that really true? Might sperm whales simply be following genetic instructions? Could their “culture” really be a set of instinctive, mechanical imperatives?


Researchers led by Hal Whitehead of Dalhousie University and Luke Rendell of Scotland’s St. Andrews University, two of the world’s foremost sperm whale biologists, have asked just this question.

Their findings: Yes, sperm whale culture really is culture. And how.

“As far as we know, these are the largest cultures on Earth, aside from human ethnicities,” said Whitehead. “They may have thousands or tens of thousands of members, covering thousands of kilometers of ocean.”

In a study published Oct. 21 in Behavior Genetics, Whitehead and Rendell analyzed sound recordings and skin samples from 194 sperm whales in the southwest Pacific Ocean.

Example of sperm whale vocalization from a 2008 study describing between-whale communication. In this recording, two whales interact. Audio: Whitehead et al./Animal Behavior Image: National Oceanic and Atmospheric Administration
The whales belonged to three “vocal clans,” each possessing a distinctively different repertoire of the Morse code-like clicks used by sperm whales to communicate. Were these dialects biologically determined, the whales would have overlapped genetically as well as vocally — but that’s not what the researchers found.

Instead, whales from different clans are often genetically similar. They’re not identical, but there’s no sign of genetic differences large enough to explain clan differences. These aren’t just vocal: Each clan also differs in hunting patterns, reproductive rates and parenting habits.

“If the differences were genetic, this would make the differences more traditionally biological. We’d have two different subspecies,” said Whitehead. “It’s culture, not genetics.”

The researchers also looked at whether geography might play a role, with each clan responding to local environments. But that doesn’t seem to be a factor: Clans can occupy vast and overlapping swaths of ocean, not a little unlike indigenous human tribes in pre-colonial North America.

“This is like a situation that happens more rarely with humans, where you have several ethnic groups living in the same area but maintaining their identity,” Whitehead said.

In future research, Whitehead and Rendell hope to learn how sperm whale culture passes from generation to generation and between families.

The findings could influence conservation efforts, highlighting the importance of preserving threatened whale cultures. More fundamentally, they affect how people think of cetaceans — not just sperm whales, which are fortunate enough to have been studied by Whitehead and collaborators for decades, but all those species that remain unknown.

“If differences are cultural, we’re getting into the border between biology and anthropology,” said Whitehead. “We’re infringing on some of the traits that some people think are unique to humans.”

Citation: “Can Genetic Differences Explain Vocal Dialect Variation in Sperm Whales, Physetermacrocephalus?” By Luke Rendell, Sarah L. Mesnick, Merel L. Dalebout, Jessica Burtenshaw and Hal Whitehead. Behavior Genetics, Oct. 21, 2011

Hubble Spots Disk Around Distant Black Hole

By Adam Mann    
November 4, 2011     
12:08 pm 

Using the Hubble space telescope, astronomers have captured a direct image of the disk surrounding a black hole.

The disk is made of gas and dust, slowly being consumed as it spirals down into the black hole’s center. As it falls in, the material spews out a tremendous amount of energy, forming what is known as a quasi-stellar radio source, or quasar.




Among the brightest objects in the sky, quasars are short-lived phenomena that only existed during the earliest eras of the universe. They are known to be huge — most are around 60 billion miles across — yet they lie billions of light years from Earth, making them nothing but insignificant pinpricks in even the most powerful telescopes.

Hubble was able to image the distant disk, which is approximately 18.5 billion light-years away, because a huge galaxy happens to sit between Earth and the quasar. The mass of the enormous galaxy bent light from the quasar and directed it toward our telescopes, acting like a gigantic gravitational lens.

The technique allowed the Hubble telescope to see with unprecedented detail. Because of this, researchers were able to measure the disk’s size — between 60 and 180 billion miles across — and determine the temperature of different parts of the disk. They found that gas and dust from the imaged quasar became bluer and therefore hotter as it fell toward the central black hole.

Image: NASA, ESA, J.A. Muñoz (University of Valencia)

Wednesday, November 2, 2011

Follow your Passion

Story Book Wallpaper


Katie Deedy Makes narrative-inspired wallpaper. Lately we have been attracted to collecting information as well as inspiration from people that are making a living following their passion. We discovered a few in this month's issue of Oprah's magazine. Katie's work and site truly inspires.
Please go to http://growhousegrow.com/collection/




Hacienda Hieghts Alpaca Farm





Betty Osburne went from teaching to becoming an Alpaca Farmer in the heart of Temecula, California. Although this has become her full time job, she is dedicated to teachng the public about Alpacas
Please go to http://www.thealpacahacienda.com