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主题:【文摘】Letter to a young scientist 给青年科学家的一封信 -- 蜜饯

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家园 【文摘】Letter to a young scientist 给青年科学家的一封信

一篇很不错的文章,发表在FEBS 上.为了大家,我可是违反了版权法了啊 .

You ask me what is to be a scientist. What a profound question by someone just entering university! Profound questions have no general answers, so my answer will be quite personal. I did basic research in biochemistry all my adult life, closed my laboratory four years ago, and now often try to figure out what it was all about. I will first tell you what science can give you. Then I will mention the price you may have to pay. And finally I will tell you what science can not give you.

You only see what you know to look for, and scientific training will give you much better eyes. Not because of the facts you learn ?C they age quickly and you should always distrust them a little. A famous American biochemist said this to a Harvard graduating class: "Half of what we taught you is probably wrong, but unfortunately we do not know which half". To a science student, cramming facts is what practising scales is to a piano student: there is no way around it, but it's not enough.

Science gives you better eyes because it removes mental blinkers and gives your brain a much bigger playground. Most people never worry about distances smaller than one millimeter ?C say, a tiny screw ?C or larger than a few hundred thousand kilometers ?C the mileage requirement in a frequent flyer program. That's a range of about 11 orders of magnitude. Your thoughts, on the other hand, will easily move from the behavior of a proton (10-15 m) to the size of the visible universe (approximately 1028 m) ?C about 41 orders of magnitude. It will be the same with time. Most of your friends who are not scientists slice time to perhaps one hundredth of a second ?C which may decide a ski race ?C and think back to the old Greeks or, at best, the Paleolithic ?C that's 2500 to 100000 years ago. You will slice time into femtoseconds (10-15 seconds) ?C which may decide a fast photochemical reaction ?C and when you think way back, it will be the Big Bang ?C some 15000 million years ago, or the beginnings of life on earth ?C about 3800 million years ago. Again, you will be ahead by 17?C18 orders of magnitude. Science will not make you smarter, or wiser, or a better human being, but it will plug you into the brains of many smart people who were there before you. It feels good to stand on the shoulders of giants. If you want to know that feeling, science is for you.

Let me talk some more about numbers because they are the essence of our craft. As a scientist you will instinctively feel what numbers mean, or do not mean. Understanding numbers will be your Ariadne's thread that shows you the way in science and your everyday life. To you, 27.99 will be 28, not 27 ?C go tell this to the average shopper! If you hear that employees' motivation has increased by 26.67%, you will know that anyone claiming such precision is a fool ?C or a fraud. And if your local newspaper carries the headline that cadmium in your city's water has increased by 50%, you will not fly into a panic, but will want to know absolute levels and toxicity limits. It feels good to be friends with numbers.

Understanding numbers also means that you respect their mystic borders and do not take the names of Zero and Infinity in vain. You know that the real world has no zeroes or infinities and will mistrust anyone calling for zero risk, zero pollution, zero alcohol, or zero sex. It's the same for infinite resources, infinite patriotism, or infinite sacrifice. Zero and Infinity are the catchwords of fundamentalists. Or of fools, but (to quote Mark Twain) I am just repeating myself.

Science also teaches you to avoid numbers when they would make no sense. One can certainly assess scientific performance, students' satisfaction, success in teaching, and sometimes even originality, but no true scientist would do so by numbers. Don't be afraid to protest whenever your country's science managers clobber you with Citation Frequencies, Impact Factors, and similar nonsense. Giving a number to something that cannot be accurately quantified is Bad Science. Bad Science is Science's most dangerous enemy; it is the Fallen Angel that seeks revenge.

Scientists are not the only ones who understand numbers; bankers, accountants, traders and politicians can also be very, very clever with them. But if you are looking for someone who knows when not to use them, go for a scientist.

When you talk about such matters to friends and acquaintances, they will complain that "scientists are so arrogant ?C they think they know it all". That's wrong twice over. First, those wide horizons science offers never let you forget how little you know and understand. Second, the natural sciences never give you absolute certainty, as pure mathematics can do. The scientific truth of today may be wrong tomorrow. We scientists try to inch closer to a truth that's still very far away and hope that our inching is mostly in the right direction. You may have `proven' a theory by 1000 experiments ?C tomorrow's experiment may still disprove it. Don't let this dishearten you. If you read Karl Popper (which you should), you will learn that disproving an accepted theory is the only way to advance knowledge. Preachers, demagogues, psychics, gurus, faith healers ?C it's they, not the scientists, who know it all and who are untouched by doubt. I bet you that scientists say `I don't know' much more often than most other people.

The uncertainty of scientific knowledge does not weaken, but strengthen you. The blind faith of the fundamentalist, like any inflexible structure, will crumble at the next earthquake. Your vision of the world has dynamic stability. It is not rigidly tied to facts, but is a way of looking at them. Most institutions demand absolute faith, but science makes skepticism a virtue. You don't tell the world what it should be. You observe and accept it as it is, and not as you want it to be.

This was the good part. But there are other parts. In giving you the grand tour of the castle, I must now show you the kitchen.

Science has always been a communal effort, but its ability to spawn technological innovation has transformed it into Big Business. That's certainly true of biochemistry and other branches of molecular biology, which offer the promise of blockbuster drugs and a host of other medical revolutions. The biomedical sciences have become expensive, busy, manipulative, political, and harshly competitive. Worse yet, their practitioners are being forced to fiddle with the truth. When they describe their work, they must gloss over uncertainties, or their manuscript won't get published. If they apply for grants, they must make wild claims, or they won't get funded. If they write letters of recommendation, they must tell white lies, or their letters will be counterproductive. And if they shoptalk with colleagues, they must hold back information, or they might get scooped.

Today's science is too much dominated by efficient people with cold eyes. They will tell you that hypothesis-driven research is a thing of the past and that you should go for Data Mining ?C the screening of computer-generated data banks; that good research only comes from large Networks; and that it is your social duty to Valorize Knowledge. If you get your first job at a European university, chances are that you will have to take orders from a senior professor and be kicked out after a few years, no matter how well you did. A company laboratory may treat you better at first, but still kick you out at the next restructuring, regardless of your performance. And if you are allowed to stay on, you will soon spend most of your time at your computer, toiling over mind-numbing questionnaires, mission statements, or grant applications. Every collaborator you take into your group will, over the years, need at least two dozen letters of recommendation from you, every trip to a foreign meeting will eat up at least one week of your time, and every committee you join will be at least twice the burden you expect. Very soon the entrance to Paradise ?C the laboratory ?C will be blocked by guardian angels with flaming swords. They will also stand between you and your family, your friends, and any other interests you may have. You will battle them on so many fronts that you are bound to lose.

Much of this has to do with forces beyond our control, but we scientists are also contributing to the mess. We want to be smart and forget to be warm. We think too much about competition, and not enough about generosity. We go for power, and forget that power and science don't mix. We are so anxious to become famous that we have no time to think about what science is all about. There are too many congresses, committees, evaluations, prizes, honors, and elections to academies. There is just too much noise.

For many of us, there is also loneliness. Memories of it still haunt me. The loneliness of being excluded from my research team by the never-ending stream of paper; the loneliness when my friends and colleagues disbelieved one of my discoveries; the loneliness at a far-away scientific meeting after I had given a bad talk; of reading a particularly vituperative rejection letter for a submitted manuscript; of facing tensions with my research group; of evenings with colleagues who only talked about themselves; and, more than anything, the loneliness of trying to hear the static-mangled voices of my wife and my children over a very, very long-distance phone line.

Yes, science's kitchen can be crowded, hot, hectic and noisy. But it does turn out fantastic meals. In the end, it's those meals that count. They are well worth the price.

Those delicious meals, however, are nutritionally unbalanced and will not sate you. Don't forget to supplement them, because science gives you only one view of yourself and the world. For example, there are also the mystic and the artistic views. Having these different options is the genius of our human species; failing to balance them against one another is our curse. There are parts of you that science neither explains nor satisfies. If you see everything only through the eyes of science, your vision will be monocular and lack depth. Tens of thousands of years from now, our descendants may well conclude that our Scientific Age gave us only a distorted view of the nature of things. I do not consider this possibility very likely, but the Adagio of Mahler's Tenth Symphony, a Rilke poem, or van Gogh's last paintings tell me things about myself that science never told me. Art can be a second vantage point that grants binocular vision and lets one see in three dimensions. It could do the same for you. Make science your home, but also venture beyond its borders.

University will only teach you how to do science. To become a scientist, you must learn to look at science from the outside and make it the object of your skepticism. This is something you must do on your own.

I thank Heimo Brunetti, Lisa and Fereydoun Djavadi, Michael P. Murphy and Steve Theg for comments.

家园 这辈子是成不了科学家了……

要不把这信存下来下辈子再看?

家园 蜜饯,你是学什么的?

怎么会看FEBS Letter?

这封信有一定的可读之处,但是讲得即不够深入,又不够明了。大概是怕真地说明白了会给自己惹麻烦吧。也难为你不顾版权的考了过来。不过那些东西,你不到里面,是不会明白的???

家园 俺学的是热门中的冷门

是Behavior neuroscience,学校主要偏重ALzheimer's disease.不过自己挺喜欢自己做的东西.就是知道干长了,也不一定好玩.

我才刚刚起步,您有什么高见千万告诉我.

家园 嘿,我前一段搞的东西就和alzheimer有关。

不过我不是搞生物的,是搞化学的。

家园 很好啊,非常有前途

我记得这领域里最有名的几个实验室,有一个就在MIT的白头研究所。非常有趣的研究。

家园 求教,能给点实际指点吗?

我才起步,还是没有明确的长期打算,您能给一点指点吗?

我看您一定是业内高手啦.多谢多谢.

家园 我可是个低手

混的时间长了,多多少少知道一点东西。

要说指点,不敢当。只是有几条建议而已。

第一,一定要保持自己的兴趣,只有你感兴趣的,你才能够真正投入的去做。我觉得国人一个最大的问题是无论做什么都是在讨生活,没有激情,只是为了做而做。现在我们有这个机会,可以进行自我选择。这非常好,选你最感兴趣的作为职业。全心全意地去做。

这同时还有另外一个方面的考虑,科学研究本身是非常痛苦的,因为你在寻找真理,真理只有一条,而假象却可以有万千。所以,失败已不仅仅是家常便饭,而是必然。一旦成功,也意味着这个课题已经完结。所以,科研,尤其是生物类的,都是在不断的失败中寻找正确的道路。只有真正感兴趣,喜欢的,才有毅力支撑自己做下去。而不是半途就放弃。

我举一个例子,我刚加入一个研究所(嘿嘿,技工而已)。里面一个中国的教授,从台湾来,他一生做了30年的原生动物。他最初的兴趣就是为什么里面会有那么多的小染色体。在30年之后,终于有一天,他突然明白了。然后设计了几个实验加以验证。最终发表在Nature上。30年,你可曾想过有什么东西你可以为之奋斗30年么?而且更多的情况,是40年,50年,直到去世也没有找到答案的问题。

第二,要对自己有信心

不管你是否曾经很成功过,你要相信自己的能力,相信自己可以解决这个问题。无论这个问题在别人看起来是多么的复杂与困难。你一定要记住,你在跟全世界最聪明的人一起竞争,你属于最好的之一。没有这个理念支持着你,你很快会落到别人的后面,而且会越落越远。

第三,从现在开始积累自己的知识库

罗马不是一天建成的,诺贝尔奖的发现是在一天之中,但是准备工作也许是几年,几十年或者几代人的奋斗。你要看清楚自己的不足,并积极加以弥补。广博的知识不是一天积累起来的,如果你真的想从事学术工作,就要从现在开始逐步积累。你了解得越多,越有可能发现其中的不足和差异,从而指导自己的研究。

第四,学会交流

现在的科研分工越来越细,我们也有越来越多的领域完全一无所知。为了更好的前途,必须学会高效的交流。

你必须首先会推销自己,把自己的工作告诉每一个喜欢听的人,让他们感到:天哪,这么有意思的东西我怎么会不知道?

要学会如何跟别人合作,轻松愉快而且高效。

学会如何从别人的交谈中发现对自己有益的东西。

学会各种交涉于请求,学会认识自己学术圈里面更多的人,你会知道这有什么好处的,而且我保证,会很快就知道。

最后,保持一个适当的雄心和良好的健康,然后你需要的,是耐心的等待。

等待你的成功!


本帖一共被 6 帖 引用 (帖内工具实现)
家园 强烈推荐大家读读,特别欣赏水风兄对科学和科学工作的看法

水风兄,最近高论不断,受益匪浅。当有以报之!

家园 嗯,说得好极了!
家园 说的真好啊!特别是第二和第四条。
家园 在下一介书生,别无所长

上面的那些谬论,一些是出自前辈的教导,另外一些是自己的感悟。希望能够对有志于科研工作的朋友有所帮助。

在西西河呆了这么久,一直没有什么好东西写给大家。这次正好空闲,随手写写东西,也算是为西西河尽自己的一份力。只是写的仓促,没有多方考证,其中难免有错误之处,欢迎大家批评指正。

家园 写得真好。可否换个名字发个主题贴,这样下一期的电子期刊会有篇好文章。
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