Super-lattice, rhombus, square, and hexagonal standing waves in
  magnetically driven ferrofluid surface

A. Kudrolli; A. Kudrolli; C. Wagner; D. Raitt; H. Arbell; H. Müller; Hyun-Jae Pi; J.-C. Bacri; Jysoo Lee; Kyoung J. Lee; M. Cross; M. Silber; M. Silber; N. Tufillaro; Ouyang; R. Lifshitz; R. Rosenweig; So-yeon Park; T. Mahr; T. Mahr; W. S. Edwards; W. S. Edwards

research

Super-lattice, rhombus, square, and hexagonal standing waves in magnetically driven ferrofluid surface

Authors: A. Kudrolli
A. Kudrolli
C. Wagner
D. Raitt
H. Arbell
H. Müller
Hyun-Jae Pi
J.-C. Bacri
Jysoo Lee
Kyoung J. Lee
M. Cross
M. Silber
M. Silber
N. Tufillaro
Ouyang
R. Lifshitz
R. Rosenweig
So-yeon Park
T. Mahr
T. Mahr
W. S. Edwards
W. S. Edwards
Publication date: 13 May 2000
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Standing wave patterns that arise on the surface of ferrofluids by (single frequency) parametric forcing with an ac magnetic field are investigated experimentally. Depending on the frequency and amplitude of the forcing, the system exhibits various patterns including a superlattice and subharmonic rhombuses as well as conventional harmonic hexagons and subharmonic squares. The superlattice arises in a bicritical situation where harmonic and subharmonic modes collide. The rhombic pattern arises due to the non-monotonic dispersion relation of a ferrofluid

Similar works

Full text

Available Versions

Crossref

Last time updated on 03/01/2020