Growth of epitaxial bismuth and gallium substituted lutetium iron garnet films by pulsed laser deposition

Leitenmeier, S.; Heinrich, A.; Lindner, J.; Stritzker, B.

doi:10.1063/1.2170057

Cited by 8 publications

(8 citation statements)

References 4 publications

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“…6,11 RBS measurements proved a stoichiometrical transport of BIG onto the YIG buffer. Thus, identical parameters were used to deposit BIG on SiO 2 with our PLD system ͑p O 2 = 3.0ϫ 10 −2 mbar, T = 600°C, f laser = 20 Hz, E laser = 800 mJ͒.…”

Section: Integration Of Magneto-optical Active Bismuth Iron Garnet Onmentioning

confidence: 79%

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Integration of magneto-optical active bismuth iron garnet on nongarnet substrates

Körner¹,

Heinrich²,

Weckerle³

et al. 2008

Journal of Applied Physics

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Section: Integration Of Magneto-optical Active Bismuth Iron Garnet Onmentioning

confidence: 79%

“…11 Furthermore, transmission electron microscopy ͑TEM͒ investigations were performed. An analog behavior was reported on BIG growth on different cuts of a GGG substrate.…”

Section: Integration Of Magneto-optical Active Bismuth Iron Garnet Onmentioning

confidence: 99%

Integration of magneto-optical active bismuth iron garnet on nongarnet substrates

Körner¹,

Heinrich²,

Weckerle³

et al. 2008

Journal of Applied Physics

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“…The experimental setup is based on a standard PLD system, which we also used successfully for the deposition of BIG [16] and LBIG [22] films. It is a different system than the in-situ RHEED setup described above, however.…”

Section: Sample Preparationmentioning

confidence: 99%

Studies on the growth of epitaxial bismuth-substituted iron garnet on gadolinium gallium garnet single crystals by pulsed laser deposition

Leitenmeier

Körner

Griesbauer

et al. 2008

Journal of Crystal Growth

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“…The different surface structure of the BIG is ascribed to the different orientation of the YIG grains. An analogue behaviour was reported on BIG growth on different cuts of a GGG substrate 8) .…”

Section: Growth Of Big On Yig/sio2mentioning

confidence: 72%

Double-Layered Polycrystalline Iron Garnet Structure of Bi3Fe5O12 and Y3Fe5O12 grown on SiO2 substrates by pulsed laser deposition

et al. 2008

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Iron Garnet single crystals like Bi3Fe5O12 are important ceramic systems with extensive applications in structural ceramics and optoelectronics. Currently, it is desirable to integrate such macroscopic components on a single chip (e.g. Si, SiO2, ...) as in the case of microelectronics (integrated optics). High quality magneto-optical active garnet films with high Faraday rotation are also needed for magneto-optical imaging. In our present work we studied the integration of Bi3Fe5O12 on different SiO2 substrates using the pulsed laser deposition method. Therefore we deposited a Y3Fe5O12 buffer first which was optimized in a post-annealing step above 900 °C in order to form a polycrystalline garnet phase, which is needed for further Bi3Fe5O12 growth. We measured the Faraday rotation of the films and intensely studied them with x-ray diffraction, Rutherford Backscattering Spectroscopy, Environmental Scanning Electron Microscopy, X-ray photoelectron spectroscopy and High-Resolution Transmission Electron Microscopy. The attained Faraday rotation can be compared with epitaxial Bi3Fe5O12 films grown on Gd3Ga5O12 substrates. Finally we present an easy solution to generate linear polarized light on the substrate by an organic light emitting diode, which can be coupled into to the garnet thin film.

show abstract

Growth of epitaxial bismuth and gallium substituted lutetium iron garnet films by pulsed laser deposition

Cited by 8 publications

References 4 publications

Integration of magneto-optical active bismuth iron garnet on nongarnet substrates

Integration of magneto-optical active bismuth iron garnet on nongarnet substrates

Studies on the growth of epitaxial bismuth-substituted iron garnet on gadolinium gallium garnet single crystals by pulsed laser deposition

Double-Layered Polycrystalline Iron Garnet Structure of Bi3Fe5O12 and Y3Fe5O12 grown on SiO2 substrates by pulsed laser deposition

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