Polarized light and X-ray precession study of the ferroelastic domains of YBa2Cu3O7-?

Schmid, Hans; Burkhardt, Ernst; Wałker, E.; Brixel, Wolf Dietrich; Clin, M.; Rivera, Jean-Pierre; Jorda, J. L.; François, Michel; Yvon, K.

doi:10.1007/bf01312817

Cited by 77 publications

(19 citation statements)

References 34 publications

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“…2. The decreasing δ affects the optical contrast, since linearly-polarized light imaging detects the anisotropic optical response of the neighboring twins [25] and the degree of this anisotropy is proportional to δ. This decreases the difference in the light intensity between the twins.…”

Section: Resultsmentioning

confidence: 99%

Intrinsic pinning on structural domains in underdoped single crystals ofBa(Fe1−xCox)
Prozorov
¹
,
Tanatar
²
,
Ni
³

et al. 2009
Phys. Rev. B
117
19
111
1
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Critical current density was studied in single crystals of Ba(Fe1−xCox)2As2 for the values of x spanning the entire doping phase diagram. A noticeable enhancement was found for slightly underdoped crystals with the peak at x = 0.058. Using a combination of polarized-light imaging, x-ray diffraction and magnetic measurements we associate this behavior with the intrinsic pinning on structural domains in the orthorhombic phase. Domain walls extend throughout the sample thickness in the direction of vortices and act as extended pinning centers. With the increasing x domain structure becomes more intertwined and fine due to a decrease of the orthorhombic distortion. This results in the energy landscape with maze-like spatial modulations favorable for pinning. This finding shows that iron-based pnictide superconductors, characterized by high values of the transition temperature, high upper critical fields, and low anisotropy may intrinsically have relatively high critical current densities.

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Section: Resultsmentioning

confidence: 99%

Intrinsic pinning on structural domains in underdoped single crystals ofBa(Fe1−xCox)
Prozorov
¹
,
Tanatar
²
,
Ni
³

et al. 2009
Phys. Rev. B
117
19
111
1
View full text Add to dashboard Cite

show abstract

“…The reflectivities and bireflectance values of ␣-BFO have so far not yet been quantitatively characterized, as this has been done, e.g., for YBa 2 Cu 3 O 7+␦ . 57,58 Such a characterization would greatly facilitate work with single crystals and their ferroelastic domains. As an example of the contrast which can be obtained between ferroelastic domains with the principal reflectance in the plane, we show a cross section through a leaf of the fernlike dendrites ͑Fig.…”

Section: Domain Structures In Bifeo 3 Single Crystalmentioning

confidence: 99%

βphase andγ−βmetal-insulator transition in multiferroicBiFe
Palai
¹
,
Katiyar
²
,
Schmid
³

et al. 2008
Phys. Rev. B
Self Cite
636
44
358
6
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Use policyThe full-text may be used and/or reproduced, and given to third parties in any format or medium, without prior permission or charge, for personal research or study, educational, or not-for-prot purposes provided that:• a full bibliographic reference is made to the original source • a link is made to the metadata record in DRO • the full-text is not changed in any way The full-text must not be sold in any format or medium without the formal permission of the copyright holders.Please consult the full DRO policy for further details. We report on extensive experimental studies on thin film, single crystal, and ceramics of multiferroic bismuth ferrite BiFeO 3 using differential thermal analysis, high-temperature polarized light microscopy, hightemperature and polarized Raman spectroscopy, high-temperature x-ray diffraction, dc conductivity, optical absorption and reflectivity, and domain imaging, and show that epitaxial ͑001͒ thin films of BiFeO 3 are clearly monoclinic at room temperature, in agreement with recent synchrotron studies but in disagreement with all other earlier reported results. We report an orthorhombic order-disorder ␤ phase between 820 and 925 ͑Ϯ5͒°C, and establish the existence range of the cubic ␥ phase between 925 ͑Ϯ5͒ and 933 ͑Ϯ5͒°C, contrary to all recent reports. We also report the refined Bi 2 O 3 -Fe 2 O 3 phase diagram. The phase transition sequence rhombohedral-orthorhombic-cubic in bulk ͓monoclinic-orthorhombic-cubic in ͑001͒BiFeO 3 thin film͔ differs distinctly from that of BaTiO 3 . The transition to the cubic ␥ phase causes an abrupt collapse of the band gap toward zero ͑insulator-metal transition͒ at the orthorhombic-cubic ␤-␥ transition around 930°C. Our band structure models, high-temperature dc resistivity, and light absorption and reflectivity measurements are consistent with this metal-insulator transition.

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“…They come into play and become well observable by X-rays when the spontaneous deformation is important, as is e.g. the case in the ortho rhombic, ferroelastic phase of YBa 2 Cu 3 0 7 _x- 24 Before starting to make physical measurements on materials with phase transitions, like multi-ferroics, it is therefore of greatest importance to begin by studying in polarized light the phase transitions, domai n structures and crystal optical prop- -< respectively . Columns 7-9: " full" a nd " P" stand for full and panial coupling of stress, electric field and magnetic field to the ferroelastic, ferroelectric and ferromagnetic domains, respectively.…”

Section: Different Types Of Complexity Of Domain Structuresmentioning

confidence: 99%

Multi-ferroic magnetoelectrics

1994

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Domain aspects of multi-fe rroics are reviewed, i.e. of materials, in which two or all three of 1he properties ·rerroeleclricily.' •fcrromagnelism' and ·fe rroelasticity' occur simultaneo usly in the same phase, and in which the magnelic poinl group has been reliably established by magneiOelectric, optical, dielectric, magnetic and related studies on single crystals and single domains. Nearly o nly members of lhc boracitc cryslal famil y are concem ed, whereas fo r 1he pcrovskile fami ly and other classes of material there is great pauci1y of data on single crystals. Polarized lighl microscopy is shown to be an indispensable tool for the s1udy of multi-ferroics. in particular when ferroelasticity is involved. Potenlial multi-fcrroic magnetoclectrics. so far only kno wn in ceramic form . are excluded from the survey.

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Polarized light and X-ray precession study of the ferroelastic domains of YBa2Cu3O7-?

Cited by 77 publications

References 34 publications

Intrinsic pinning on structural domains in underdoped single crystals ofBa(Fe1−xCox)
Prozorov
¹
,
Tanatar
²
,
Ni
³

et al. 2009
Phys. Rev. B
117
19
111
1
View full text Add to dashboard Cite

Intrinsic pinning on structural domains in underdoped single crystals ofBa(Fe1−xCox)
Prozorov
¹
,
Tanatar
²
,
Ni
³

et al. 2009
Phys. Rev. B
117
19
111
1
View full text Add to dashboard Cite

βphase andγ−βmetal-insulator transition in multiferroicBiFe
Palai
¹
,
Katiyar
²
,
Schmid
³

et al. 2008
Phys. Rev. B
Self Cite
636
44
358
6
View full text Add to dashboard Cite

Multi-ferroic magnetoelectrics

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Polarized light and X-ray precession study of the ferroelastic domains of YBa2Cu3O7-?

Cited by 77 publications

References 34 publications

Intrinsic pinning on structural domains in underdoped single crystals ofBa(Fe1−xCox)Prozorov1, Tanatar2, Ni3 et al. 2009Phys. Rev. B117191111View full textAdd to dashboardCite

Intrinsic pinning on structural domains in underdoped single crystals ofBa(Fe1−xCox)Prozorov1, Tanatar2, Ni3 et al. 2009Phys. Rev. B117191111View full textAdd to dashboardCite

βphase andγ−βmetal-insulator transition in multiferroicBiFePalai1, Katiyar2, Schmid3 et al. 2008Phys. Rev. BSelf Cite636443586View full textAdd to dashboardCite

Multi-ferroic magnetoelectrics

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About

Intrinsic pinning on structural domains in underdoped single crystals ofBa(Fe1−xCox)
Prozorov
¹
,
Tanatar
²
,
Ni
³

et al. 2009
Phys. Rev. B
117
19
111
1
View full text Add to dashboard Cite

Intrinsic pinning on structural domains in underdoped single crystals ofBa(Fe1−xCox)
Prozorov
¹
,
Tanatar
²
,
Ni
³

et al. 2009
Phys. Rev. B
117
19
111
1
View full text Add to dashboard Cite

βphase andγ−βmetal-insulator transition in multiferroicBiFe
Palai
¹
,
Katiyar
²
,
Schmid
³

et al. 2008
Phys. Rev. B
Self Cite
636
44
358
6
View full text Add to dashboard Cite