home *** CD-ROM | disk | FTP | other *** search
- Newsgroups: sci.math
- Path: sparky!uunet!ornl!utkcs2!darwin.sura.net!zaphod.mps.ohio-state.edu!uwm.edu!ux1.cso.uiuc.edu!news.cso.uiuc.edu!amaterasu!marty
- From: marty@amaterasu.physics.uiuc.edu (Marty Gelfand)
- Subject: Re: a first year grad student freaks out.
- References: <BxK1uD.9Bz@mentor.cc.purdue.edu> <1992Nov11.223722.29808@galois.mit.edu> <BxKu9s.BAw@news.udel.edu>
- Message-ID: <BxL0Fs.194@news.cso.uiuc.edu>
- Sender: usenet@news.cso.uiuc.edu (Net Noise owner)
- Organization: Department of Physics, University of Illinois at Urbana-Champaign
- Date: Thu, 12 Nov 1992 02:33:26 GMT
- Lines: 51
-
- In article <BxKu9s.BAw@news.udel.edu> Ray J Cornwall writes:
- >John C. Baez writes:
- >>That's why I'm glad that starting in high school I started trying to
- >>come up with math topics to do research on. One has to face the unknown
- >>eventually if one is going to do research, so one might as well get used
- >>to it as early as possible (even if ones first research projects are a
- >>little silly).
- >
- >For those of us who wish to do research (cause we'll get our names in
- >really cool journals! :) can you give us some pointers on how to come
- >up with such topics?
- >I've been trying to be more aggressive with my studies in math, to
- >look for such ideas, but I have a feeling I'm barking up the wrong
- >tree looking in textbooks and looking for my favorite topics here.
- >Where are some good sources of information, and what are some good
- >questions to ask myself?
- Here's an idea JCB would probably appreciate...talk to a theoretical
- physicist every once in a while. We're full of problems we can't solve
- and solutions we can't rigorously justify. (Has anyone put the Parisi
- solution of the Sherrington-Kirkpatrick [infinite-dimensional Ising spin
- glass] model on a mathematically sound footing yet?) To give you some
- idea how much territory is wide open, here's a problem I worried about
- two years ago (for the physical motivation and some Monte Carlo work,
- see Zhao et al, Phys Rev B 44, 10760, 1991). Please let me know if
- you make any substantial progress! I suspect it will not be easy.
- Consider the set of directed random walks on the lattice of integer
- points in two dimensions from (0,0) to (t,t). Suppose that each lattice
- point is associated with a number v(i,j), where v=1 with probability 1-p
- and -1 with probability p. (Actually, let me amend that, and say that
- v(0,0)=1 always. Also let's assume that p is in the interval [0,1/2].)
- Now each directed walk W can be associated with a
- number V(W), which is the product of all the v's encountered along the walk.
- Now add up all the [2t choose t] V(W)'s, which defines the 'partition
- function' Z (which depends on the realization of the v(i,j)'s and on t).
- Define the 'sign probability' S(p) as the t->infinity limit of the
- expectation value of sgn(Z).
- Conjecture: For any p>0, S(p)=0.
- Interesting generalizations: change the dimensionality of the lattice.
- For the 1D case the Conjecture is obviously true. For d>=4 there is
- reason to suspect that a mean-field argument, which yields a p_c>0 such
- that S(p)=0 for p<=p_c and S(p)>0 for p>p_c, is valid (but it isn't
- what mathematicians would regard as a rigourous proof). What about d=3?
- Another extension: Consider not only the large-t limit, but also the
- asymptotic behavior, ie, define S(p;t) as the expectation value of
- sgn(Z(t)), and determine the large-t asymptotics. Based on numerical
- work and some theoretical prejudices I expect that in d=2
- S(p;t) ~ exp(t/L)/t^M, where L depends strongly on p as p->0 (probably
- diverging like exp(1/p)) and M is independent of p. Of course this
- guess could be wrong.
-
- --Marty Gelfand marty@amaterasu.physics.uiuc.edu
-
