Competing interactions and patterns in nanoworld
Vedmedenko, Elena Y.
Competing interactions and patterns in nanoworld Elena Y. Vedmedenko - Weinheim : Wiley-VCH ; [John Wiley [distributor], ©2007 - xi, 202 pages : illustrations (some color)); 24 cm.
1 Introduction 2 Self-Competition: or How to Choose the Best from the Worst 3 Competition Between a Short- and a Long-Range Interaction 4 Competition Between Interactions on a similar length scale 5 Interplay Between Anisotropies and Interparticle Interactions 6 Dynamic Self-Organization
Systems displaying competing interactions of some kind are widespread - much more, in fact, as commonly anticipated (magnetic and Ising-type interactions or the dynamics of DNA molecules being only two popular examples). Written for researchers in the field with different professional backgrounds, this volume classifies phenomena not by system but rather by the type of competing interactions involved. This allows for a straightforward presentation of the underlying principles and the universal laws governing the behaviour of different systems.Starting with a historical overview
9783527404841
Nanoscience
Pattern formation (Physical sciences)
Solid state physics
Critical phenomena (Physics)
530.41 / VED
Competing interactions and patterns in nanoworld Elena Y. Vedmedenko - Weinheim : Wiley-VCH ; [John Wiley [distributor], ©2007 - xi, 202 pages : illustrations (some color)); 24 cm.
1 Introduction 2 Self-Competition: or How to Choose the Best from the Worst 3 Competition Between a Short- and a Long-Range Interaction 4 Competition Between Interactions on a similar length scale 5 Interplay Between Anisotropies and Interparticle Interactions 6 Dynamic Self-Organization
Systems displaying competing interactions of some kind are widespread - much more, in fact, as commonly anticipated (magnetic and Ising-type interactions or the dynamics of DNA molecules being only two popular examples). Written for researchers in the field with different professional backgrounds, this volume classifies phenomena not by system but rather by the type of competing interactions involved. This allows for a straightforward presentation of the underlying principles and the universal laws governing the behaviour of different systems.Starting with a historical overview
9783527404841
Nanoscience
Pattern formation (Physical sciences)
Solid state physics
Critical phenomena (Physics)
530.41 / VED