Laser deposition of thin films with varying substrate temperature during film growth

W. D. Song, M. H. Hong, Y. F. Lu, W. J. Wang, S. M. Huang, S. I. Pang, Y. F. Xu, Y. W. Goh, X. H. Liu, T. C. Chong

Research output: Contribution to journalConference article

2 Citations (Scopus)

Abstract

Laser deposition of barium ferrite films with varying substrate temperature during film growth has been studied. It is found that both perpendicular and in-plane coercivities increase with peak substrate temperature and reach 5.2 kOe. The magnetization hysteresis loops are similar for both magnetic fields applied parallel and perpendicular to the substrate surface, indicating that the films exhibit almost isotropic properties. The magnetic properties, grain shape and crystalline orientation of films deposited with varying substrate temperature are close to films deposited with post annealing and differ from films deposited with in situ heating. The total time for preparing films with varying substrate temperature is much shorter than that with post annealing or in situ heating.

Original languageEnglish (US)
Pages (from-to)348-351
Number of pages4
JournalApplied Surface Science
Volume197-198
DOIs
StatePublished - Jan 1 2002
EventCola 2001 - Tsukuba, Japan
Duration: Oct 1 2001Oct 1 2001

Fingerprint

laser deposition
Film growth
Thin films
Lasers
Substrates
thin films
Temperature
temperature
Annealing
Heating
Hysteresis loops
annealing
heating
Barium
Coercive force
Crystal orientation
Ferrite
Magnetization
Magnetic properties
barium

Keywords

  • Barium ferrite films
  • Laser deposition
  • Varying substrate temperature

ASJC Scopus subject areas

  • Surfaces, Coatings and Films

Cite this

Song, W. D., Hong, M. H., Lu, Y. F., Wang, W. J., Huang, S. M., Pang, S. I., ... Chong, T. C. (2002). Laser deposition of thin films with varying substrate temperature during film growth. Applied Surface Science, 197-198, 348-351. https://doi.org/10.1016/S0169-4332(02)00422-1

Laser deposition of thin films with varying substrate temperature during film growth. / Song, W. D.; Hong, M. H.; Lu, Y. F.; Wang, W. J.; Huang, S. M.; Pang, S. I.; Xu, Y. F.; Goh, Y. W.; Liu, X. H.; Chong, T. C.

In: Applied Surface Science, Vol. 197-198, 01.01.2002, p. 348-351.

Research output: Contribution to journalConference article

Song, WD, Hong, MH, Lu, YF, Wang, WJ, Huang, SM, Pang, SI, Xu, YF, Goh, YW, Liu, XH & Chong, TC 2002, 'Laser deposition of thin films with varying substrate temperature during film growth', Applied Surface Science, vol. 197-198, pp. 348-351. https://doi.org/10.1016/S0169-4332(02)00422-1
Song, W. D. ; Hong, M. H. ; Lu, Y. F. ; Wang, W. J. ; Huang, S. M. ; Pang, S. I. ; Xu, Y. F. ; Goh, Y. W. ; Liu, X. H. ; Chong, T. C. / Laser deposition of thin films with varying substrate temperature during film growth. In: Applied Surface Science. 2002 ; Vol. 197-198. pp. 348-351.
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AU - Hong, M. H.

AU - Lu, Y. F.

AU - Wang, W. J.

AU - Huang, S. M.

AU - Pang, S. I.

AU - Xu, Y. F.

AU - Goh, Y. W.

AU - Liu, X. H.

AU - Chong, T. C.

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N2 - Laser deposition of barium ferrite films with varying substrate temperature during film growth has been studied. It is found that both perpendicular and in-plane coercivities increase with peak substrate temperature and reach 5.2 kOe. The magnetization hysteresis loops are similar for both magnetic fields applied parallel and perpendicular to the substrate surface, indicating that the films exhibit almost isotropic properties. The magnetic properties, grain shape and crystalline orientation of films deposited with varying substrate temperature are close to films deposited with post annealing and differ from films deposited with in situ heating. The total time for preparing films with varying substrate temperature is much shorter than that with post annealing or in situ heating.

AB - Laser deposition of barium ferrite films with varying substrate temperature during film growth has been studied. It is found that both perpendicular and in-plane coercivities increase with peak substrate temperature and reach 5.2 kOe. The magnetization hysteresis loops are similar for both magnetic fields applied parallel and perpendicular to the substrate surface, indicating that the films exhibit almost isotropic properties. The magnetic properties, grain shape and crystalline orientation of films deposited with varying substrate temperature are close to films deposited with post annealing and differ from films deposited with in situ heating. The total time for preparing films with varying substrate temperature is much shorter than that with post annealing or in situ heating.

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