Magnetic phase transitions due to compositional variation across amorphous thin–films

Mustafa Tokaç

doi:10.17776/csj.923274

Araştırma Makalesi

Yıl 2021, Cilt: 42 Sayı: 3, 715 - 721, 24.09.2021

Mustafa Tokaç

https://doi.org/10.17776/csj.923274

Öz

Kaynakça

[1] Cooper E. I., Bonhote C., Heidmann J., Hsu Y., Kern P., Lam J. W., Ramasubramanian M., Robertson N., Romankiw L. T., Xu H., Recent developments in high-moment electroplated materials for recording heads, IBM Journal of Research and Development, 49 (1) (2005) 103-126.
[2] Chen A. P., Burton J. D., Tsymbal E. Y., Feng Y. P., Chen J., Effects of B and C doping on tunneling magnetoresistance in CoFe/MgO magnetic tunnel junctions, Physical Review B, 98 (4) (2018) 045129.
[3] Parkin S. S., Kaiser C., Panchula A., Rice P. M., Hughes B., Samant M., Yang S. H., Giant tunnelling magnetoresistance at room temperature with MgO (100) tunnel barriers, Nature Materials, 3 (12) (2004) 862-867.
[4] Platt C. L., Minor N. K., Klemmer T. J., Magnetic and structural properties of FeCoB thin films, IEEE Transactions on Magnetics, 37 (4) (2001) 2302-2304.
[5] Djayaprawira D. D., Tsunekawa K., Nagai M., Maehara H., Yamagata S., Watanabe N., Yuasa S., Suzuki Y., Ando K., 230% room-temperature magnetoresistance in CoFeB∕MgO∕CoFeB magnetic tunnel junctions, Applied Physics Letters, 86 (9) (2005) 092502.
[6] Ikeda S., Miura K., Yamamoto H., Mizunuma K., Gan H. D., Endo M., Kanai S., Hayakawa J., Matsukara F., Ohno H., A perpendicular-anisotropy CoFeB–MgO magnetic tunnel junction, Nature Materials, 9 (9) (2010) 721-724.
[7] Kubota H., Fukushima A., Yakushiji K., Nagahama T., Yuasa S., Ando K., Maehara H., Nagamine Y., Tsunekawa K., Djayaprawira D. D., Watanabe N., Suzuki Y., Quantitative measurement of voltage dependence of spin-transfer torque in MgO-based magnetic tunnel junctions, Nature Physics, 4 (1) (2008) 37-41.
[8] Fukamichi K., Gambino R. J., The Curie temperature and magnetization of Fe-base amorphous binary alloys containing transition metal, IEEE Transactions on Magnetics, 17 (6) (1981) 3059-3061.
[9] Cheng C.-W., Feng W., Chern G., Lee C. M., Wu T.-H., Effect of cap layer thickness on the perpendicular magnetic anisotropy in top MgO/CoFeB/Ta structures, Journal of Applied Physics, 110 (3) (2011) 033916.
[10] Hindmarch A. T., Dempsey K. J., Ciudad D., Negusse E., Arena D. A., Marrows C. H., Fe diffusion, oxidation, and reduction at the CoFeB/MgO interface studied by soft x-ray absorption spectroscopy and magnetic circular dichroism, Applied Physics Letters, 96 (9) (2010) 092501.
[11] Ikeda S., Hayakawa J., Ashizawa Y., Lee Y. M., Miura K., Hasegawa H., Tsunoda M., Matsukura F., Ohno H., Tunnel magnetoresistance of 604% at 300 K by suppression of Ta diffusion in CoFeB∕MgO∕CoFeB pseudo-spin-valves annealed at high temperature, Applied Physics Letters, 93 (8) (2008) 082508.
[12] Wang W. X., Yang Y., Naganuma H., Ando Y., Yu R. C., Han X. F., The perpendicular anisotropy of Co40Fe40B20 sandwiched between Ta and MgO layers and its application in CoFeB/MgO/CoFeB tunnel junction, Applied Physics Letters, 99 (1) (2011) 012502.
[13] Worledge D. C., Hu G., Abraham D. W., Sun J. Z., Trouilloud P. L., Nowak J., Brown S., Gaidis M. C., O’Sullivan E. J., Robertazzi R. P., Spin torque switching of perpendicular Ta∣CoFeB∣MgO-based magnetic tunnel junctions, Applied Physics Letters, 98 (2) (2011) 022501.
[14] Tokaç M., Kinane C. J., Atkinson D., Hindmarch A. T., Temperature dependence of magnetically dead layers in ferromagnetic thin-films, AIP Advances, 7 (11) (2017) 115022.
[15] Björck M., Andersson G., GenX: an extensible X-ray reflectivity refinement program utilizing differential evolution, J. Appl. Crystallogr., 40 (6) (2007) 1174-1178.
[16] Zhang S., Levy P. M., Enhanced spin-dependent scattering at interfaces, Physical Review Letters, 77 (5) (1996) 916.
[17] Fleischmann C., Almeida F., Demeter J., Paredis K., Teichert A., Steitz R., Brems S., Opperdoes B., Van Haesendonck C., Vantomme A., Temst K., The influence of interface roughness on the magnetic properties of exchange biased CoO/Fe thin films, Journal of Applied Physics, 107 (11) (2010) 113907.
[18] Jang S. Y., Lim S. H., Lee S. R., Magnetic dead layer in amorphous CoFeB layers with various top and bottom structures, Journal of Applied Physics, 107 (9) (2010) 09C707.
[19] Greer A. A., Gray A. X., Kanai S., Kaiser A. M., Ueda S., Yamashita Y., Bordel C., Palsson G., Maejima N., Yang S.-H., Conti G., Kobayashi K., Ikeda S., Matsukura F., Ohno H., Schneider C. M., Kortright J. B., Hellman F., Fadley C. S., Observation of boron diffusion in an annealed Ta/CoFeB/MgO magnetic tunnel junction with standing-wave hard x-ray photoemission, Applied Physics Letters, 101 (20) (2012) 202402.
[20] Inyang O., Bouchenoire L., Nicholson B., Tokaç M., Rowan-Robinson R. M., Kinane C. J., Hindmarch A. T., Threshold interface magnetization required to induce magnetic proximity effect, Physical Review B, 100 (17) (2019) 174418.

Magnetic phase transitions due to compositional variation across amorphous thin–films

Yıl 2021, Cilt: 42 Sayı: 3, 715 - 721, 24.09.2021

Mustafa Tokaç

https://doi.org/10.17776/csj.923274

Öz

The structural and magnetic properties of amorphous thin–films with various CoFeTaB thicknesses were studied to observe magnetic phase transitions due to compositional variation through the CoFeTaB layer. The investigations of the structural properties of amorphous CoFeTaB thin–films were undertaken to confirm layer thickness, interface roughness, and their amorphous structure. Temperature dependent magnetic characterizations were performed to extract Curie temperatures of each thin–film structure, where there is evidence of more than one magnetic transition point. These transition points indicate magnetic phase transitions, which may be attributed to compositional variations across the amorphous CoFeTaB thin–films. Investigation of diffusion process in ferromagnetic thin–films is crucial for the development of spintronic applications.

Anahtar Kelimeler

Fe-based Amorphous Alloys, Magnetic Properties, Ferromagnetic Thin-Films, Magnetic Phase Transitions

Kaynakça

[1] Cooper E. I., Bonhote C., Heidmann J., Hsu Y., Kern P., Lam J. W., Ramasubramanian M., Robertson N., Romankiw L. T., Xu H., Recent developments in high-moment electroplated materials for recording heads, IBM Journal of Research and Development, 49 (1) (2005) 103-126.
[2] Chen A. P., Burton J. D., Tsymbal E. Y., Feng Y. P., Chen J., Effects of B and C doping on tunneling magnetoresistance in CoFe/MgO magnetic tunnel junctions, Physical Review B, 98 (4) (2018) 045129.
[3] Parkin S. S., Kaiser C., Panchula A., Rice P. M., Hughes B., Samant M., Yang S. H., Giant tunnelling magnetoresistance at room temperature with MgO (100) tunnel barriers, Nature Materials, 3 (12) (2004) 862-867.
[4] Platt C. L., Minor N. K., Klemmer T. J., Magnetic and structural properties of FeCoB thin films, IEEE Transactions on Magnetics, 37 (4) (2001) 2302-2304.
[5] Djayaprawira D. D., Tsunekawa K., Nagai M., Maehara H., Yamagata S., Watanabe N., Yuasa S., Suzuki Y., Ando K., 230% room-temperature magnetoresistance in CoFeB∕MgO∕CoFeB magnetic tunnel junctions, Applied Physics Letters, 86 (9) (2005) 092502.
[6] Ikeda S., Miura K., Yamamoto H., Mizunuma K., Gan H. D., Endo M., Kanai S., Hayakawa J., Matsukara F., Ohno H., A perpendicular-anisotropy CoFeB–MgO magnetic tunnel junction, Nature Materials, 9 (9) (2010) 721-724.
[7] Kubota H., Fukushima A., Yakushiji K., Nagahama T., Yuasa S., Ando K., Maehara H., Nagamine Y., Tsunekawa K., Djayaprawira D. D., Watanabe N., Suzuki Y., Quantitative measurement of voltage dependence of spin-transfer torque in MgO-based magnetic tunnel junctions, Nature Physics, 4 (1) (2008) 37-41.
[8] Fukamichi K., Gambino R. J., The Curie temperature and magnetization of Fe-base amorphous binary alloys containing transition metal, IEEE Transactions on Magnetics, 17 (6) (1981) 3059-3061.
[9] Cheng C.-W., Feng W., Chern G., Lee C. M., Wu T.-H., Effect of cap layer thickness on the perpendicular magnetic anisotropy in top MgO/CoFeB/Ta structures, Journal of Applied Physics, 110 (3) (2011) 033916.
[10] Hindmarch A. T., Dempsey K. J., Ciudad D., Negusse E., Arena D. A., Marrows C. H., Fe diffusion, oxidation, and reduction at the CoFeB/MgO interface studied by soft x-ray absorption spectroscopy and magnetic circular dichroism, Applied Physics Letters, 96 (9) (2010) 092501.
[11] Ikeda S., Hayakawa J., Ashizawa Y., Lee Y. M., Miura K., Hasegawa H., Tsunoda M., Matsukura F., Ohno H., Tunnel magnetoresistance of 604% at 300 K by suppression of Ta diffusion in CoFeB∕MgO∕CoFeB pseudo-spin-valves annealed at high temperature, Applied Physics Letters, 93 (8) (2008) 082508.
[12] Wang W. X., Yang Y., Naganuma H., Ando Y., Yu R. C., Han X. F., The perpendicular anisotropy of Co40Fe40B20 sandwiched between Ta and MgO layers and its application in CoFeB/MgO/CoFeB tunnel junction, Applied Physics Letters, 99 (1) (2011) 012502.
[13] Worledge D. C., Hu G., Abraham D. W., Sun J. Z., Trouilloud P. L., Nowak J., Brown S., Gaidis M. C., O’Sullivan E. J., Robertazzi R. P., Spin torque switching of perpendicular Ta∣CoFeB∣MgO-based magnetic tunnel junctions, Applied Physics Letters, 98 (2) (2011) 022501.
[14] Tokaç M., Kinane C. J., Atkinson D., Hindmarch A. T., Temperature dependence of magnetically dead layers in ferromagnetic thin-films, AIP Advances, 7 (11) (2017) 115022.
[15] Björck M., Andersson G., GenX: an extensible X-ray reflectivity refinement program utilizing differential evolution, J. Appl. Crystallogr., 40 (6) (2007) 1174-1178.
[16] Zhang S., Levy P. M., Enhanced spin-dependent scattering at interfaces, Physical Review Letters, 77 (5) (1996) 916.
[17] Fleischmann C., Almeida F., Demeter J., Paredis K., Teichert A., Steitz R., Brems S., Opperdoes B., Van Haesendonck C., Vantomme A., Temst K., The influence of interface roughness on the magnetic properties of exchange biased CoO/Fe thin films, Journal of Applied Physics, 107 (11) (2010) 113907.
[18] Jang S. Y., Lim S. H., Lee S. R., Magnetic dead layer in amorphous CoFeB layers with various top and bottom structures, Journal of Applied Physics, 107 (9) (2010) 09C707.
[19] Greer A. A., Gray A. X., Kanai S., Kaiser A. M., Ueda S., Yamashita Y., Bordel C., Palsson G., Maejima N., Yang S.-H., Conti G., Kobayashi K., Ikeda S., Matsukura F., Ohno H., Schneider C. M., Kortright J. B., Hellman F., Fadley C. S., Observation of boron diffusion in an annealed Ta/CoFeB/MgO magnetic tunnel junction with standing-wave hard x-ray photoemission, Applied Physics Letters, 101 (20) (2012) 202402.
[20] Inyang O., Bouchenoire L., Nicholson B., Tokaç M., Rowan-Robinson R. M., Kinane C. J., Hindmarch A. T., Threshold interface magnetization required to induce magnetic proximity effect, Physical Review B, 100 (17) (2019) 174418.

Toplam 20 adet kaynakça vardır.

Ayrıntılar

Birincil Dil	İngilizce
Konular	Klasik Fizik (Diğer)
Bölüm	Natural Sciences
Yazarlar	Mustafa Tokaç 0000-0001-5614-2292
Yayımlanma Tarihi	24 Eylül 2021
Gönderilme Tarihi	19 Mayıs 2021
Kabul Tarihi	3 Temmuz 2021
Yayımlandığı Sayı	Yıl 2021Cilt: 42 Sayı: 3

Kaynak Göster

APA	Tokaç, M. (2021). Magnetic phase transitions due to compositional variation across amorphous thin–films. Cumhuriyet Science Journal, 42(3), 715-721. https://doi.org/10.17776/csj.923274

Kapak Resmi İndir

Makale Dosyaları

Tam Metin