Photoelectronic behaviors of bilayer ultrathin films manganite-based heterojunctions

W. W. Gao; L. Hu; Y. P. Sun; J. R. Sun; J. Shen; R. J. Chen; Y. F. Chen; B. G. Shen

doi:10.1063/1.4798341

Photoelectronic behaviors of bilayer ultrathin films manganite-based heterojunctions

W. W. Gao
, L. Hu
, Y. P. Sun
, J. R. Sun^*
, J. Shen
, R. J. Chen
, Y. F. Chen
, B. G. Shen

^*此作品的通讯作者

CAS - Institute of Physics
CAS - Institute of Solid State Physics
CAS - Technical Institute of Physics and Chemistry
CAS - Ningbo Institute of Material Technology and Engineering
University of Electronic Science and Technology of China

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5 引用（Scopus）

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We presented a systematic study on the photoelectronic properties of the La_0.67Ba_0.33MnO₃ (20 nm)/LaMnO ₃(t)/SrTiO₃:0.05 wt. Nb (LBMO/LMO(t)/STON) junctions with 0 t 30 nm. The short-circuit photocurrent (I_ph) is found to show a complex dependence on the LMO buffer layer. It undergoes first a sharp drop as the layer thickness of LMO increases from 0 to 3 nm and then, after a rigid turn, a slow decrease for further increase in layer thickness. These results indicate that the coupling between LBMO and STON can be effectively depressed by a LMO layer of 3 nm. The photocurrent is further found to be temperature dependent, increasing monotonically upon cooling, and the maximal growth, occurring in the junction of t 3 nm, can be as high as 226 when cooled from 320 K to 40 K. Meanwhile, the I_ph-t dependences at different temperatures are similar, which is an indication of temperature independence for the diffusion length of the photocarriers. Analysis of the capacitance-voltage relations indicates that the change of interfacial barrier is the reason for the peculiar photoelectronic behavior observed.

源语言	英语
文章编号	17D716
期刊	Journal of Applied Physics
卷	113
期	17
DOI	https://doi.org/10.1063/1.4798341
出版状态	已出版 - 7 5月 2013
已对外发布	是

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title = "Photoelectronic behaviors of bilayer ultrathin films manganite-based heterojunctions",

abstract = "We presented a systematic study on the photoelectronic properties of the La0.67Ba0.33MnO3 (20 nm)/LaMnO 3(t)/SrTiO3:0.05 wt. Nb (LBMO/LMO(t)/STON) junctions with 0 t 30 nm. The short-circuit photocurrent (Iph) is found to show a complex dependence on the LMO buffer layer. It undergoes first a sharp drop as the layer thickness of LMO increases from 0 to 3 nm and then, after a rigid turn, a slow decrease for further increase in layer thickness. These results indicate that the coupling between LBMO and STON can be effectively depressed by a LMO layer of 3 nm. The photocurrent is further found to be temperature dependent, increasing monotonically upon cooling, and the maximal growth, occurring in the junction of t 3 nm, can be as high as 226 when cooled from 320 K to 40 K. Meanwhile, the Iph-t dependences at different temperatures are similar, which is an indication of temperature independence for the diffusion length of the photocarriers. Analysis of the capacitance-voltage relations indicates that the change of interfacial barrier is the reason for the peculiar photoelectronic behavior observed.",

author = "Gao, \{W. W.\} and L. Hu and Sun, \{Y. P.\} and Sun, \{J. R.\} and J. Shen and Chen, \{R. J.\} and Chen, \{Y. F.\} and Shen, \{B. G.\}",

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AU - Gao, W. W.

AU - Hu, L.

AU - Sun, Y. P.

AU - Sun, J. R.

AU - Shen, J.

AU - Chen, R. J.

AU - Chen, Y. F.

AU - Shen, B. G.

PY - 2013/5/7

Y1 - 2013/5/7

N2 - We presented a systematic study on the photoelectronic properties of the La0.67Ba0.33MnO3 (20 nm)/LaMnO 3(t)/SrTiO3:0.05 wt. Nb (LBMO/LMO(t)/STON) junctions with 0 t 30 nm. The short-circuit photocurrent (Iph) is found to show a complex dependence on the LMO buffer layer. It undergoes first a sharp drop as the layer thickness of LMO increases from 0 to 3 nm and then, after a rigid turn, a slow decrease for further increase in layer thickness. These results indicate that the coupling between LBMO and STON can be effectively depressed by a LMO layer of 3 nm. The photocurrent is further found to be temperature dependent, increasing monotonically upon cooling, and the maximal growth, occurring in the junction of t 3 nm, can be as high as 226 when cooled from 320 K to 40 K. Meanwhile, the Iph-t dependences at different temperatures are similar, which is an indication of temperature independence for the diffusion length of the photocarriers. Analysis of the capacitance-voltage relations indicates that the change of interfacial barrier is the reason for the peculiar photoelectronic behavior observed.

AB - We presented a systematic study on the photoelectronic properties of the La0.67Ba0.33MnO3 (20 nm)/LaMnO 3(t)/SrTiO3:0.05 wt. Nb (LBMO/LMO(t)/STON) junctions with 0 t 30 nm. The short-circuit photocurrent (Iph) is found to show a complex dependence on the LMO buffer layer. It undergoes first a sharp drop as the layer thickness of LMO increases from 0 to 3 nm and then, after a rigid turn, a slow decrease for further increase in layer thickness. These results indicate that the coupling between LBMO and STON can be effectively depressed by a LMO layer of 3 nm. The photocurrent is further found to be temperature dependent, increasing monotonically upon cooling, and the maximal growth, occurring in the junction of t 3 nm, can be as high as 226 when cooled from 320 K to 40 K. Meanwhile, the Iph-t dependences at different temperatures are similar, which is an indication of temperature independence for the diffusion length of the photocarriers. Analysis of the capacitance-voltage relations indicates that the change of interfacial barrier is the reason for the peculiar photoelectronic behavior observed.

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Photoelectronic behaviors of bilayer ultrathin films manganite-based heterojunctions

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