Zum Nachweis von Orientierungszusammenhängen makroskopischer Substrukturen durch Drahtschattenabbildung mittels Berg‐Barrett‐Technik

Wadewitz, H.

doi:10.1002/crat.19670020214

Cited by 8 publications

(2 citation statements)

References 2 publications

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“…The required experimental values tO,, tOb, tOc can be obtained using one of the arrangements of the Berg-Barrett method mentioned in the Introduction. A decision was made to use the arrangement of Wadewitz (1967) because of its better angular resolution although three topographs of the examined crystal surface have to be taken in this case. Some improvements of the simplest setting described in § 1 were necessary to enable measurement of the misorientation component perpendicular to the crystal surface and also in cases where no reflecting planes parallel to the crystal surface exist.…”

Section: Methodsmentioning

confidence: 99%

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Complete determination of subgrain misorientation by an X-ray topographic method

Kulda¹,

Polcarová²

1981

J Appl Cryst

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A modification of the Berg‐Barrett X‐ray topographic method was developed which enables measurement of all three misorientation parameters of a general subgrain boundary. The described method is based on the evaluation of three topographs of a single, arbitrarily oriented crystal surface taken by symmetric zero‐layer reflections. In practical tests performed on an as‐grown Fe–3 Wt% Si single crystal, relative accuracy of 10% and angular sensitivity better than 1′ were achieved.

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Section: Methodsmentioning

confidence: 99%

“…These difficulties are removed in the arrangement of Wadewitz (1967) by placing an array of vertical wires into the primary beam. The wire shadows are mutually shifted in the horizontal direction on each boundary with nonzero ¢p~ by an amount b-c S = (p~ sin 0'…”

Section: Introductionmentioning

confidence: 99%

Complete determination of subgrain misorientation by an X-ray topographic method

Kulda¹,

Polcarová²

1981

J Appl Cryst

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On the Perfection of Laser Rubies

Berger¹,

Böhm

1969

Cryst Res and Technol

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Ruby single crystals grown by the VERNEUIL method for application as laser crystals have a rather coarse substructure which is marked by the appearance of subgrains with mutual disorientations up to 1". The subgrain boundaries were examined by means of X-ray topographs obtained by the BERG-BARRETT method. Finely polished surfaces of the crystals were suitable for this purpose, especially the terminal surfaces of the laser rods.The substructure originates with the growth process, even if crystal seeds without substructure are used and a first part of the crystal has grown without defects. The subgrain boundaries are not influenced by annealing at 1800 "C. A direct influence of the substructure on the laser properties of the rubies could not be detected, Rubin-Einkristalle, die nach dem VERNEUIL-Verfahren fib? die Anwendung als Laser-Kristalle gezuchtet wurden, besitzen eine relativ grobe Substruktur, die durch das Auftreten von Subkoriiern mit gegenseitigen Desorientierungen bis zu 1" gekennzeichnet ist. Die Subkorngrenzen wurden mit rontgentopographischen Aufnahmen nach der BERG-BARRETT-Methode untersucht. Hierzu eigneten sich feinpolierte Fliichen an den Kristallen, insbesondere die Endflachen der Laserstabe.

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Realstrukturuntersuchungen an CaF₂

Dressler

Dänhardt

1974

Cryst Res and Technol

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Blockstrukturen von CaF8-Kristallen werden mit der Rontgentopographie (Berg-Barrett-Technik) und der Zweikristalldiffraktometrie untersucht. Die Moglichkeiten dieser Techniken bei der Untersuchung von Proben mit Blockstrukturen werden diskutiert.Grain structures of CaF, crystals are examined by X-ray topography (Berg-Barrett-technique) and two-crystal-diffractometry. The possibilities of these techniques for the examination of samples with grain structures are discussed.

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Zum Nachweis von Orientierungszusammenhängen makroskopischer Substrukturen durch Drahtschattenabbildung mittels Berg‐Barrett‐Technik

Cited by 8 publications

References 2 publications

Complete determination of subgrain misorientation by an X-ray topographic method

Complete determination of subgrain misorientation by an X-ray topographic method

On the Perfection of Laser Rubies

Realstrukturuntersuchungen an CaF₂

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Zum Nachweis von Orientierungszusammenhängen makroskopischer Substrukturen durch Drahtschattenabbildung mittels Berg‐Barrett‐Technik

Cited by 8 publications

References 2 publications

Complete determination of subgrain misorientation by an X-ray topographic method

Complete determination of subgrain misorientation by an X-ray topographic method

On the Perfection of Laser Rubies

Realstrukturuntersuchungen an CaF2

Contact Info

Product

Resources

About

Realstrukturuntersuchungen an CaF₂