<--- Back to Details
First PageDocument Content
Quantum field theory / Critical phenomena / Trie / Earthquake prediction / Power law / Earthquake / Critical exponent / Aftershock / Renormalization / Physics / Renormalization group / Mathematical physics
Date: 2008-02-07 12:20:11
Quantum field theory
Critical phenomena
Trie
Earthquake prediction
Power law
Earthquake
Critical exponent
Aftershock
Renormalization
Physics
Renormalization group
Mathematical physics

Phys. J.

Add to Reading List

Source URL: hal.archives-ouvertes.fr

Download Document from Source Website

File Size: 864,08 KB

Share Document on Facebook

Similar Documents

acta physica slovaca vol. 55 No. 2, 141 – 148 April 2005 ESTIMATION OF THE MAGNETIC CRITICAL EXPONENT BY TENSOR PRODUCT VARIATIONAL APPROACH

DocID: 1uu6G - View Document

Critical phenomena / Phase transitions / Statistics / Scaling / Transformation / Power law / Scale / Scalability / Critical exponent / Computing / Matrix / Physics

Spacetimes with semantics II (supplement)∗ On the scaling of functional spaces, from smart cities to cloud computing Mark Burgess

DocID: 1rce2 - View Document

Phase transitions / Statistical mechanics / Combinatorics / Lattice models / Renormalization group / Percolation theory / Percolation / Universality / Critical exponent / Physics / Critical phenomena / Quantum field theory

DOC Document

DocID: 1gEo8 - View Document

Critical phenomena / Phase transitions / Quantum field theory / Critical exponent / Physical Review / Forest-fire model / Physics / Renormalization group / Theoretical physics

PRL 101, PHYSICAL REVIEW LETTERS week ending 5 DECEMBER 2008

DocID: 1ad91 - View Document

Quantum phases / Renormalization group / Magnetic ordering / Critical phenomena / Paramagnetism / Critical exponent / Magnet / Ferromagnetism / Spin glass / Physics / Electromagnetism / Phase transitions

J. Phys.: Condens. Matter–4502. Printed in the UK PII: S0953Disorder and the quantum critical point in UCu5−x Pdx R Chau†§, M C Aronson‡, E J Freeman† and M B Maple†

DocID: 19NK6 - View Document