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【理工学科版系列有奖活动之六】:征集理工学科发展动态文献
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理工学科版系列有奖活动之六:征集理工学科发展动态文献 为了更好地了解理工各学科发展的过去与现在,准确把握未来的发展方向,配合理工学科版的学术交流活动,现向虫子们征集相关文献。 文献的内容与类别要求是理工各学科的最新理论进展和研究综述,也欢迎某一类问题的实证研究进展。 文献的来源要求主要是期刊,并以英文期刊为主,中文期刊限制以少数顶级期刊为主。其他类型的材料来源根据质量情况给予适当的奖励! 为了便于大家查阅,请按照如下格式发贴: 1、帖子标题:[学科][方向]+理论进展(或综述,或实证研究) 2、帖子内容应包括: 文献标题: 期刊名称: 内容简介:用1-2句中文简要说明一下 最后,压缩并上传文献 欢迎就相应内容发表自己的评论,根据质量奖1-15分。 请直接在下面跟贴! 对前10个帖子将加大奖励力度,欢迎大家踊跃参与!同一学科的帖子将综合期刊、文献内容与质量、发表时间等因素综合考虑评分多少;建议类跟贴不计入前10个帖子内。 如果有好的建议,欢迎跟贴!中肯的建议有奖励! [ Last edited by laizuliang on 2007-6-27 at 21:48 ] |
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125 big questions from Science top 25 What Is the Universe Made Of? What is the Biological Basis of Consciousness? Why Do Humans Have So Few Genes? To What Extent Are Genetic Variation and Personal Health Linked? Can the Laws of Physics Be Unified? How Much Can Human Life Span Be Extended? What Controls Organ Regeneration? How Can a Skin Cell Become a Nerve Cell? How Does a Single Somatic Cell Become a Whole Plant? How Does Earth's Interior Work? Are We Alone in the Universe? How and Where Did Life on Earth Arise? What Determines Species Diversity? What Genetic Changes Made Us Uniquely Human? How Are Memories Stored and Retrieved? How Did Cooperative Behavior Evolve? How Will Big Pictures Emerge from a Sea of Biological Data? How Far Can We Push Chemical Self-Assembly? What Are the Limits of Conventional Computing? Can We Selectively Shut Off Immune Responses? Do Deeper Principles Underlie Quantum Uncertainty and Nonlocality? Is an Effective HIV Vaccine Feasible? How Hot Will the Greenhouse World Be? What Can Replace Cheap Oil -- and When? Will Malthus Continue to Be Wrong? another 100 a Is ours the only universe? A number of quantum theorists and cosmologists are trying to figure out whether our universe is part of a bigger "multiverse." But others suspect that this hard-to-test idea may be a question for philosophers. What drove cosmic inflation? In the first moments after the big bang, the universe blew up at an incredible rate. But what did the blowing? Measurements of the cosmic microwave background and other astrophysical observations are narrowing the possibilities. When and how did the first stars and galaxies form? The broad brush strokes are visible, but the fine details aren't. Data from satellites and ground-based telescopes may soon help pinpoint, among other particulars, when the first generation of stars burned off the hydrogen "fog" that filled the universe. Where do ultrahigh-energy cosmic rays come from? Above a certain energy, cosmic rays don't travel very far before being destroyed. So why are cosmic-ray hunters spotting such rays with no obvious source within our galaxy? What powers quasars? The mightiest energy fountains in the universe probably get their power from matter plunging into whirling supermassive black holes. But the details of what drives their jets remain anybody's guess. What is the nature of black holes? Relativistic mass crammed into a quantum-sized object? It's a recipe for disaster--and scientists are still trying to figure out the ingredients. Why is there more matter than antimatter? To a particle physicist, matter and antimatter are almost the same. Some subtle difference must explain why matter is common and antimatter rare. Does the proton decay? In a theory of everything, quarks (which make up protons) should somehow be convertible to leptons (such as electrons)--so catching a proton decaying into something else might reveal new laws of particle physics. What is the nature of gravity? It clashes with quantum theory. It doesn't fit in the Standard Model. Nobody has spotted the particle that is responsible for it. Newton's apple contained a whole can of worms. Why is time different from other dimensions? It took millennia for scientists to realize that time is a dimension, like the three spatial dimensions, and that time and space are inextricably linked. The equations make sense, but they don't satisfy those who ask why we perceive a "now" or why time seems to flow the way it does. Are there smaller building blocks than quarks? Atoms were "uncuttable." Then scientists discovered protons, neutrons, and other subatomic particles--which were, in turn, shown to be made up of quarks and gluons. Is there something more fundamental still? Are neutrinos their own antiparticles? Nobody knows this basic fact about neutrinos, although a number of underground experiments are under way. Answering this question may be a crucial step to understanding the origin of matter in the universe. Is there a unified theory explaining all correlated electron systems? High-temperature superconductors and materials with giant and colossal magnetoresistance are all governed by the collective rather than individual behavior of electrons. There is currently no common framework for understanding them. What is the most powerful laser researchers can build? Theorists say an intense enough laser field would rip photons into electron-positron pairs, dousing the beam. But no one knows whether it's possible to reach that point. Can researchers make a perfect optical lens? They've done it with microwaves but never with visible light. Is it possible to create magnetic semiconductors that work at room temperature? Such devices have been demonstrated at low temperatures but not yet in a range warm enough for spintronics applications. What is the pairing mechanism behind high-temperature superconductivity? Electrons in superconductors surf together in pairs. After 2 decades of intense study, no one knows what holds them together in the complex, high-temperature materials. Can we develop a general theory of the dynamics of turbulent flows and the motion of granular materials? So far, such "nonequilibrium systems" defy the tool kit of statistical mechanics, and the failure leaves a gaping hole in physics. Are there stable high-atomic-number elements? A superheavy element with 184 neutrons and 114 protons should be relatively stable, if physicists can create it. Is superfluidity possible in a solid? If so, how? Despite hints in solid helium, nobody is sure whether a crystalline material can flow without resistance. If new types of experiments show that such outlandish behavior is possible, theorists would have to explain how. What is the structure of water? Researchers continue to tussle over how many bonds each H2O molecule makes with its nearest neighbors. What is the nature of the glassy state? Molecules in a glass are arranged much like those in liquids but are more tightly packed. Where and why does liquid end and glass begin? Are there limits to rational chemical synthesis? The larger synthetic molecules get, the harder it is to control their shapes and make enough copies of them to be useful. Chemists will need new tools to keep their creations growing. What is the ultimate efficiency of photovoltaic cells? Conventional solar cells top out at converting 32% of the energy in sunlight to electricity. Can researchers break through the barrier? Will fusion always be the energy source of the future? It's been 35 years away for about 50 years, and unless the international community gets its act together, it'll be 35 years away for many decades to come. What drives the solar magnetic cycle? Scientists believe differing rates of rotation from place to place on the sun underlie its 22-year sunspot cycle. They just can't make it work in their simulations. Either a detail is askew, or it's back to the drawing board. How do planets form? How bits of dust and ice and gobs of gas came together to form the planets without the sun devouring them all is still unclear. Planetary systems around other stars should provide clues. What causes ice ages? Something about the way the planet tilts, wobbles, and careens around the sun presumably brings on ice ages every 100,000 years or so, but reams of climate records haven't explained exactly how. What causes reversals in Earth's magnetic field? Computer models and laboratory experiments are generating new data on how Earth's magnetic poles might flip-flop. The trick will be matching simulations to enough aspects of the magnetic field beyond the inaccessible core to build a convincing case. Are there earthquake precursors that can lead to useful predictions? Prospects for finding signs of an imminent quake have been waning since the 1970s. Understanding faults will progress, but routine prediction would require an as-yet-unimagined breakthrough. Is there--or was there--life elsewhere in the solar system? The search for life--past or present--on other planetary bodies now drives NASA's planetary exploration program, which focuses on Mars, where water abounded when life might have first arisen. What is the origin of homochirality in nature? Most biomolecules can be synthesized in mirror-image shapes. Yet in organisms, amino acids are always left-handed, and sugars are always right-handed. The origins of this preference remain a mystery. Can we predict how proteins will fold? Out of a near infinitude of possible ways to fold, a protein picks one in just tens of microseconds. The same task takes 30 years of computer time. How many proteins are there in humans? It has been hard enough counting genes. Proteins can be spliced in different ways and decorated with numerous functional groups, all of which makes counting their numbers impossible for now. How do proteins find their partners? Protein-protein interactions are at the heart of life. To understand how partners come together in precise orientations in seconds, researchers need to know more about the cell's biochemistry and structural organization. How many forms of cell death are there? In the 1970s, apoptosis was finally recognized as distinct from necrosis. Some biologists now argue that the cell death story is even more complicated. Identifying new ways cells die could lead to better treatments for cancer and degenerative diseases. What keeps intracellular traffic running smoothly? Membranes inside cells transport key nutrients around, and through, various cell compartments without sticking to each other or losing their way. Insights into how membranes stay on track could help conquer diseases, such as cystic fibrosis. What enables cellular components to copy themselves independent of DNA? Centrosomes, which help pull apart paired chromosomes, and other organelles replicate on their own time, without DNA's guidance. This independence still defies explanation. What roles do different forms of RNA play in genome function? RNA is turning out to play a dizzying assortment of roles, from potentially passing genetic information to offspring to muting gene expression. Scientists are scrambling to decipher this versatile molecule. What role do telomeres and centromeres play in genome function? These chromosome features will remain mysteries until new technologies can sequence them. Why are some genomes really big and others quite compact? The puffer fish genome is 400 million bases; one lungfish's is 133 billion bases long. Repetitive and duplicated DNA don't explain why this and other size differences exist. What is all that "junk" doing in our genomes? DNA between genes is proving important for genome function and the evolution of new species. Comparative sequencing, microarray studies, and lab work are helping genomicists find a multitude of genetic gems amid the junk. How much will new technologies lower the cost of sequencing? New tools and conceptual breakthroughs are driving the cost of DNA sequencing down by orders of magnitude. The reductions are enabling research from personalized medicine to evolutionary biology to thrive. How do organs and whole organisms know when to stop growing? A person's right and left legs almost always end up the same length, and the hearts of mice and elephants each fit the proper rib cage. How genes set limits on cell size and number continues to mystify. How can genome changes other than mutations be inherited? Researchers are finding ever more examples of this process, called epigenetics, but they can't explain what causes and preserves the changes. How is asymmetry determined in the embryo? Whirling cilia help an embryo tell its left from its right, but scientists are still looking for the first factors that give a relatively uniform ball of cells a head, tail, front, and back. How do limbs, fins, and faces develop and evolve? The genes that determine the length of a nose or the breadth of a wing are subject to natural and sexual selection. Understanding how selection works could lead to new ideas about the mechanics of evolution with respect to development. What triggers puberty? Nutrition--including that received in utero--seems to help set this mysterious biological clock, but no one knows exactly what forces childhood to end. Are stem cells at the heart of all cancers? The most aggressive cancer cells look a lot like stem cells. If cancers are caused by stem cells gone awry, studies of a cell's "stemness" may lead to tools that could catch tumors sooner and destroy them more effectively. Is cancer susceptible to immune control? Although our immune responses can suppress tumor growth, tumor cells can combat those responses with counter-measures. This defense can stymie researchers hoping to develop immune therapies against cancer. Can cancers be controlled rather than cured? Drugs that cut off a tumor's fuel supplies--say, by stopping blood-vessel growth--can safely check or even reverse tumor growth. But how long the drugs remain effective is still unknown. Is inflammation a major factor in all chronic diseases? It's a driver of arthritis, but cancer and heart disease? More and more, the answer seems to be yes, and the question remains why and how. How do prion diseases work? Even if one accepts that prions are just misfolded proteins, many mysteries remain. How can they go from the gut to the brain, and how do they kill cells once there, for example. |
26楼2005-07-12 18:30:56
笨笨鸟
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mainpro(金币+3):谢谢你的意见,辛苦了!欢迎常来理工学科版学术交流!
mainpro(金币+3):谢谢你的意见,辛苦了!欢迎常来理工学科版学术交流!
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现在分的越来越细,即使是一个学科,不同的方向进展的也不一样,比如我们的半导体,有的还在做Si,有的已经是第三代半导体材料,即使材料相同,用途也可能不同,这样就很难在一篇或几篇文献中讲全。 所以是不是分的再细点,把学科改为学科 /方向/材料啊。比如半导体蓝光材料 或高/低K材料等。 同时是否考虑经自己处理做成中文ppt的附上这些文献给与重奖啊 请考虑,谢谢 接贵宝地发个好消息: 2004SCI影响因子,绝对正宗!特别感谢 aqi96 http://muchong.com/bbs/viewthread.php?tid=98641&fpage=1 大家看看啊,我等了好久啊! 失态了  [ Last edited by 笨笨鸟 on 2005-6-18 at 23:06 ] |
2楼2005-06-18 18:51:13
liuzhiyong
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好建议,我是报名进来学习的 3楼2005-06-18 20:50:55
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4楼2005-06-18 21:18:53