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When going off on a tangent from your regular area, where, presumably, you have such mastery of all cutting-edge research from your routine reading that you hardly need to do any extra (if this is false, please correct me), how much do you try to familiarize yourself with that area before beginning to directly attack your problem? Do you read just a few canonical papers and surveys, look thoroughly over a dozen and glance at a couple dozen more, or do enough to write a whole survey article of your own?

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    $\begingroup$ The only possible answer I can conceive of for this question is: it depends. $\endgroup$
    – Deane Yang
    Jul 23, 2010 at 4:09
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    $\begingroup$ The drift of the responses so far is a lot more "dive in head first, then read while you work" than I expected. That's actually really nice to know - I've been reading myself to death on a problem, and still feeling like I'm missing out on a vast amount of important facts. You guys have inspired me to get my hands dirty! $\endgroup$
    – DoubleJay
    Jul 23, 2010 at 16:29
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    $\begingroup$ Using the nuanced insight of @DeaneYang, we can simplify many known results: Let $p$ be a prime. Is there an expression $p = a^2 + b^2$ as a sum of squares? It depends. QED $\endgroup$ Aug 13, 2018 at 14:57

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When you know the definitions, of the elements of your problem, no doubt, start attacking the problem. Ever if you still don't know the definitions for the most general form of the problem and only for a simplified version of it the answer is the same. No better sense of what the problem is about than by putting your own hand on it. Even if it only serves to get to some conclusion that you could have easily read somewhere. It could even happen that you solve the problem by putting together two or three things that you read but more important in research than solving the problem is understanding it. Because after solving it, you need to find new problems to continue. You don't understand anything better than those that you do yourself. The above doesn't mean don't read. It means don't wait a second before start doing all you can yourself.

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    $\begingroup$ I agree with this. It is often extremely useful to first try to see what you can do with what you know already. If you're really lucky, you may actually attack the problem with a fresh angle that leads to new insights and results. At worst, you gain an appreciation of where the obstacles are, which at least for me facilitates reading about other people's work on the problem. $\endgroup$
    – Deane Yang
    Jul 23, 2010 at 4:27
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    $\begingroup$ Spot on for me too. $\endgroup$ May 27, 2011 at 7:00
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When I attacked the problem of finding a quantum factoring algorithm, I had read four or five papers on the subject, which constituted nearly all the literature on quantum algorithms at the time. However, there were lots of other relevant papers that I didn't even know about in the field which would later be called quantum information theory, and I didn't feel compelled to do a literature search to find them.

This is one extreme. If you try to go this route, you may very likely miss some important techniques that are commonly used in the new field, so I would actually recommend substantial reading in the new field. I had to do that when I started working on quantum information theory.

It would make a lot of sense if you worked on your problem while you did this substantial reading (even though you're liable to go in the wrong direction), because that will be a good guide for choosing which papers you should read. It also helps if you have a colleague in the new area you can talk to or collaborate with. So, as Deane says in the comments, "It depends."

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I try to get myself a coauthor who knows that area.

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I think reading while you are already working on the problem could be helpful in both directions. On the one hand, while reading you will be more alert to stuff that might be useful for solving the problem, so you will have better chance of paying attention to it. On the other hand, if you already have a problem in mind and you are trying to see how to use the stuff that you are learning to solve the problem, then your learning process is more active and your understanding of the material will be better (or at least some aspects of it).

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