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A scientific treasure trove...
A scientific treasure trove...


Do you have a work you're really proud of, but that seems to have gone unfairly unnoticed?  Let us know about it here!
Do you have a work you're really proud of, but that seems to have got buried?  Let us know about it here!


If you'd like to add (up to 2) items, please contact ashleypwillis/at/gmail.com with your entries, following the format below as closely as possible
If you'd like to add (up to 2) items, please contact ashleypwillis/at/gmail.com with your entries, following the format below as closely as possible

Revision as of 01:51, 23 September 2014

A scientific treasure trove...

Do you have a work you're really proud of, but that seems to have got buried? Let us know about it here!

If you'd like to add (up to 2) items, please contact ashleypwillis/at/gmail.com with your entries, following the format below as closely as possible

 ==== Danger Mouse ====
 * D. Mouse and E. Penfold (1983), ''How not to take over the world'', Spy Weekly [http://www.spyweekly.co.uk]
 :: My favourite plans for world domination, foiled.

Philippe Brunet

Laurette Tuckermann

  • L. S. Tuckermann (1989), Transformations of matrices into banded form, Journal of Computational Physics [1] or [2].
  • L. S. Tuckermann (2001), Thermosolutal and binary fluid convection as a 2x2 matrix problem, Physica D [3] or [4]

Ashley P. Willis

  • A. P. Willis (2012), Optimization of the magnetic dynamo, Physical Review Letters [5] or [6].
Probably a bit early to say this has gone unnoticed really, I'm just impatient to see what it could lead to. I show how to find the lowest Rm for a large-scale dynamo, along with the velocity field that makes this possible, for a periodic box.