Asymptotic theory for the inverse problem in magnetic force microscopy of superconductors

Abstract

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Full text can be accessed via http://link.aps.org/doi/10.1103/PhysRevB.60.10436

A. Badía
Departamento de Física de la Materia Condensada, CPSUZ-ICMA, María de Luna 3, E-50 015 Zaragoza, Spain

Received 12 April 1999

Anasymptotic theory is formulated, which allows us to recover theLondon penetration depth lambda in superconductors from magnetic force microscopymeasurements. An ad hoc interpretation of the forward problem allowsus to accomplish a complex variable based power series reversionscheme. The asymptotic series expansion of lambda can be generatedin terms of measurable quantities. Simulations for analytically tractable situationshave been performed which confirm the stability of our approach,even for cases where noise corrupted data is considered. Themethod does not restrict to any particular symmetry and issuited for covering the whole temperature range lambda (T), with obviousimplications on the knowledge of the superconducting pairing state. Bycomparing with the analytic model of Coffey [Phys. Rev. B57, 11 648 (1998)] we discuss the limitations and possible extensionsof the existing theory.

URL:	http://link.aps.org/doi/10.1103/PhysRevB.60.10436
DOI:	10.1103/PhysRevB.60.10436
PACS:	74.25.Ha; 07.79.Pk; 02.30.Dk 74.25.Ha Superconductivity General properties; correlations between physical properties in normal and superconducting states Magnetic properties 07.79.Pk Instruments, apparatus, components, and techniques common to several branches of physics and astronomy Scanning probe microscopes, components, and techniques Magnetic force microscopes 02.30.Dk Mathematical methods in physics Function theory, analysis Functions of a complex variable YEAR: 1999
KEYWORDS:	penetration depth (superconductivity), magnetic force microscopy, series (mathematics), digital simulation, inverse problems