2011年12月27日 星期二

Science and Censorship: A Duel Lasting Centuries

紐約時報

Science and Censorship: A Duel Lasting Centuries

By WILLIAM J. BROAD

When a federal panel asked two journals last week to withhold details on bird flu experiments, it was only the latest example of an ages-old conflict often rooted in issues of war and advanced weaponry.

2011年12月25日 星期日

媽媽不出門 能知寶貝的萬事“mompreneurs”

Prototype
If These Moms Can’t Find It, They Invent It

The rise of “mompreneurs” 媽媽興業家 has been helped by the rise of Internet and social media, which allow child-raising women to exchange ideas without having to leave the house.

2011年12月20日 星期二

Ogata Korin's "Red and White Plum Blossoms," a folding screen w

National treasure's silver waves recreated via computer

BY KAZUMASA NISHIOKA STAFF WRITER

2011/12/20


photoSilver-colored waves were reproduced through computer graphics after an analysis of crystals on the painting. (Provided by Izumi Nakai, professor of analytical chemistry at the Tokyo University of Science)photo


Ogata Korin's "Red and White Plum Blossoms," a folding screen with a painting from the 18th century (MOA Museum of Art)

After fading over time, the dazzling silvery waves of a dark river originally depicted in a national treasure screen painting from the 18th century have been reproduced via computer by a team of researchers, giving testament to the brilliance of the original masterpiece.

2011年12月18日 星期日

偽造家人的來電顯示

這科技值得一記

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偽造家人的來電顯示→ 最新詐騙手法

請留意 勿上當

新聞來源:華視

詐騙集團詐騙又有新手法。以往詐騙集團的來電通常都不會顯示號碼,但現在詐騙集團利用一種新科技,可以偽造被害者家屬的來電號碼,讓被害者家屬信以為真,由於,目前還沒有科技可以破解這種技術,警方提醒,接到可疑電話,切記一定要保持冷靜,才不會被騙倒。電話響了,來電顯示是兒子打過來的,沒想到一接起來竟然是歹徒謊稱綁架勒贖的電話。台北市一名婦人就是接到了這種詐騙勒贖電話,被詐騙集團騙走了五十八萬元,原因就是來電顯示的號碼不是別人,而是她的兒子。

以往詐騙集團的來電顯示,絕大部分不是保密電話,就是沒有顯示號碼,民眾通常都可以輕易的辨識,但現在歹徒透過這一台叫做 ID RUN的機器,就可以輕易的偽造出被害者家屬的電話。不幸的是,業者表示,目前為止還沒有技術可以破解這項新科技,因此警方呼籲民眾接到可疑電話,一定要謹慎再謹慎又或者在第一時間,向警方求助,透過電信警察追查發話地點,才可以避免掉入歹徒的陷阱。

2011年12月14日 星期三

The Higgs boson,

The Higgs boson

Fantasy turned reality

Those searching for the Higgs boson may at last have cornered their quarry

WELL, they’ve found it. Possibly. Maybe. Pinning down physicists about whether they have actually discovered the Higgs boson is almost as hard as tracking down the elusive subatomic beast itself. Leon Lederman, a leading researcher in the field, once dubbed it the “goddamn” particle, because it has proved so hard to isolate. That name was changed by a sniffy editor to the “God” particle, and a legend was born. Headline writers loved it. Physicists loved the publicity. CERN, the world’s biggest particle-physics laboratory, and the centre of the hunt for the Higgs, used that publicity to help keep the money flowing.

And this week it may all have paid off. On December 13th two of the researchers at CERN’s headquarters in Geneva announced to a breathless world something that looks encouragingly Higgsy.

The Higgs boson, for those who have not been paying attention to the minutiae of particle physics over the past few years, is a theoretical construct dreamed up in 1964 by a British researcher, Peter Higgs (pictured above), and five other, less famous individuals. It is the last unobserved piece of the Standard Model, the most convincing explanation available for the way the universe works in all of its aspects except gravity (which is dealt with by the general theory of relativity).

The Standard Model (see table) includes familiar particles such as electrons and photons, and esoteric ones like the W and Z bosons, which carry something called the weak nuclear force. Most bosons are messenger particles that cement the others, known as fermions, together. They do so via electromagnetism and the weak and strong nuclear forces. The purpose of the Higgs boson, however, is different. It is to inculcate mass into those particles which weigh something. Without it, or something like it, some of the Standard Model’s particles that actually do have mass (particularly the W and Z bosons) would be predicted to be massless. Without it, in other words, the Standard Model would not work.

The announcement, by Fabiola Gianotti and Guido Tonelli—the heads, respectively, of two experiments at CERN known as ATLAS and CMS—was that both of their machines have seen phenomena which look like traces of the Higgs. They are traces, rather than actual bosons, because no Higgs will ever be seen directly. The best that can be hoped for are patterns of breakdown particles from Higgses that are, themselves, the results of head-on collisions between protons travelling in opposite directions around CERN’s giant accelerator, the Large Hadron Collider (LHC). Heavy objects like Higgs bosons can break down in several different ways, but each of these ways is predictable. Both ATLAS and CMS have seen a number of these predicted patterns often enough to pique interest, but not (yet) often enough to constitute proof that they came from Higgses, rather than being random fluctuations in the background of non-Higgs decays.

The crucial point, and the reason for the excitement, is that both ATLAS and CMS (which are located in different parts of the ring-shaped accelerator tunnel of the LHC) have come up with the same results. Both indicate that, if what they have seen really are Higgses, then the boson has a mass of about 125 giga-electron-volts (GeV), in the esoteric units which are used to measure how heavy subatomic particles are. That coincidence bolsters the suggestion that this is the real thing, rather than a few chance fluctuations.




Physicists Report Progress in Search for "God Particle"

Scientists say they've found "intriguing hints" about the Higgs boson, thought to be one of the universe's key building blocks.

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Scientists at the CERN gave update Tuesday on their search for the Higgs boson, a elusive subatomic particle that is believed to be a basic building block of the universe.

Photo by Fabrice Coffrini/AFP/Getty Images.

Physicists haven't found the so-called "God particle" (known to the less sensational among us as the Higgs boson) just yet, but two teams have found "intriguing hints" pointing to the existence of the elusive particle that is thought to be a basic building block of the universe.

So what’s the big deal? And what’s with the haughty name?

The Washington Post explains: "[T]his particle—spotted—would all but complete the fundamental theory of particle physics, known as the Standard Model. Confirmation of the Higgs would solve the mystery of why matter has the property that physicists call mass—the resistance to being shoved around."

British physicist Peter Higgs and others theorized the particle’s existence over 40 years ago. Scientists haven’t had the tools or expertise to conclude whether or not it exists until now, and a pair of separate teams have sparked excitement among experts and laymen with early results—the latest of which were unveiled Tuesday—that show small but significant progress toward finally answering the question once and for all.

"The excitement is higher than anything I've seen in high-energy physics in the past 20 years," Joe Lykken, a physicist at the Energy Department’s Fermilab in Illinois, told the Post.

Two separate teams are using the European Organization for Nuclear Research's Large Hadron Collider­—a 17-mile circular tunnel underneath the Swiss-French border that is so powerful that it can create conditions that mirror those that followed the theoretical Big Bang—to crash proton beams into each other at incredibly high speeds in hopes of finding the Higgs boson.

The Associated Press explains that scientists believe that only under these conditions can it be created, and only a fraction of the time. Both teams have concluded with some confidence the likely mass of the particle. They hope to reach an ultimate conclusion about whether or not the particle exists by next year.

"But be careful—it's intriguing hints," said Rolf Heuer, director of CERN. "We have not found it yet; we have not excluded it yet."

If scientists prove the Higgs boson exists, and at the mass they predict, it will support other physics theories related to the Big Bang Theory and the general makeup of the universe, says BBC. Those theories, in turn, would predict the existence of other particles that shape our universe.

2011年12月6日 星期二

presidential address was broadcast on radio

《爐邊談話》(趙越等譯,台北:福隆,2010) 。其實從此書可以知道小羅斯福總統相當善於講故事,譬如他說的一些戰爭時空軍英雄的艱難任務等,相當有戲劇性。其實,總統利用收音機與人民拉近感情的做法,始於1930年代初*。在美國1929年股市大崩盤的時候,有人就說,胡佛總統在廣播中如此親切,讓大家誤以為是太平盛世呢。 (進一步可參`John Kenneth Galbraith1929大崩盤》( The Great Crash 1929) 台北:經濟新潮,2009)

*On Dec. 6, 1923, a presidential address was broadcast on radio for the first time as President Calvin Coolidge spoke to a joint session of Congress.