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--- advanced_tools:wick_rotation [2017/06/14 10:30]
jakobadmin [Student]
+++ advanced_tools:wick_rotation [2017/12/04 08:01]
127.0.0.1 external edit
@@ Line 10: / Line 10: @@
 <cite>http://jfi.uchicago.edu/~leop/TALKS/Phase%20TransitionsV2.4Dirac.pdf</cite>
 </blockquote>
+<blockquote>
+This procedure (Wick rotation), which relates classical statistical mechanics and quantum field theory, is, however, somewhat subtle
+<cite>https://arxiv.org/pdf/hep-th/9802035.pdf</cite>
+</blockquote>
   * [[http://jakob.physicsnotes.org/quantum_field_theory/methods/non_perturbative_qft#why_imaginary_time|Tunneling phenomena]] are described most easily by performing a Wick rotation.
@@ Line 30: / Line 37: @@
 <tabbox Student>
-<note tip>
+<blockquote>
-In this section things should be explained by analogy and with pictures and, if necessary, some formulas.
+This is widely used to convert quantum mechanics problems into statistical mechanics problems by means of Wick rotation, which essentially means studying the unitary group exp(−itH/~) by studying the semigroup exp(−βH) and then analytically continuing β to imaginary values.
-</note>
+<cite>https://arxiv.org/pdf/1311.0813.pdf</cite>
+</blockquote>
@@ Line 45: / Line 54: @@
 <--
 <tabbox Researcher>
+<blockquote>Unfortunately, relatively little is
+known about Yang-Mills fields on Minkowski spacetime and, worse yet, the
+basic objects of interest in quantum field theory (Feynman path integrals)
+are extraordinarily difficult to make any sense of in this indefinite context.
+The minus sign in the Minkowski inner product is rather troublesome. Not
+to be deterred by such a minor inconvenience, the physicists do the only
+reasonable thing under the circumstances—they change the sign! To lend
+an air of respectability to this subterfuge, however, they give it a name.
+Introducing an imaginary time coordinate τ = it is designated a Wick ro-
+tation and has the laudable effect of transforming Minkowski spacetime into
+R 4 (x 1 x 2 + y 1 y 2 + z 1 z 2 − t 1 t 2 = x 1 x 2 + y 1 y 2 + z 1 z 2 + τ 1 τ 2 ). What more could
+you ask? Well, of course, a pedant might ask whether or not any physics
+survives this transformation. This is a delicate issue and not one that we
+are prepared to address. The answer would seem to be in the affirmative,
+but the reader will have to consult the physics literature to learn why (see
+Section 13.7 of [Guid]). Whether or not there is any physics in this positive
+definite context is quite beside the point for mathematics, of course. It is
+only in the positive definite case that (anti-) self-dual connections exist and
+it is an understanding of the moduli space of these that pays such handsome
+topological dividends.<cite>page 377 in Topology, Geometry and Gauge fields by Naber</cite></blockquote>
-<note tip>
-The motto in this section is: //the higher the level of abstraction, the better//.
+[Guid] is Guidry, M., Gauge Field Theories, John Wiley & Sons, Inc., New York, 1991
-</note>
+<tabbox Examples>
+--> Example1#
+<--
+--> Example2:#
+<--
+<tabbox FAQ>
 --> Do we really understand Wick rotations?#
@@ Line 72: / Line 115: @@
 --> Common Question 2#
-<--
-<tabbox Examples>
---> Example1#
-<--
---> Example2:#

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