论文信息 - Effects of Mg incorporation in cubic GaN films grown by PAMBE near Ga rich conditions - 字舞流文

Effects of Mg incorporation in cubic GaN films grown by PAMBE near Ga rich conditions

Y. Kudriavtsev | A. G. Rodríguez | M. Vidal | E. López-Luna | H. L. D. Guevara | A. E. Echavarría | V. D. Compeán-García | F. J. Rodríguez-Aranda | H. Moreno-García

[1] C. Bayram,et al. Chapter Twelve – Exploring the Next Phase in Gallium Nitride Photonics: Cubic Phase Light Emitters Heterointegrated on Silicon , 2017 .

[2] A. G. Rodríguez,et al. Complex refractive index of InXGa1-XN thin films grown on cubic (100) GaN/MgO , 2017 .

[3] C. T. Foxon,et al. X-ray detection with zinc-blende (cubic) GaN Schottky diodes , 2016, Scientific Reports.

[4] Shaomin Zhou,et al. Single p–n homojunction white light emitting diodes based on high-performance yellow luminescence of large-scale GaN microcubes , 2016 .

[5] Z. Holman,et al. Monocrystalline CdTe solar cells with open-circuit voltage over 1 V and efficiency of 17% , 2016, Nature Energy.

[6] E. Luna,et al. Tuning emission in violet, blue, green and red in cubic GaN/InGaN/GaN quantum wells , 2016 .

[7] H. Vilchis,et al. Electrical behavior of Mg doped cubic GaN on c-GaN structure , 2015 .

[8] E. Luna,et al. Bulk lattice parameter and band gap of cubic InXGa1−XN (001) alloys on MgO (100) substrates , 2015 .

[9] C. T. Foxon,et al. Photoluminescence of magnesium and silicon doped cubic GaN , 2014 .

[10] A. Steckl,et al. p-type GaN grown by phase shift epitaxy , 2014 .

[11] C. Cobet,et al. Optical properties of cubic GaN from 1 to 20 eV , 2012 .

[12] S. Berrah,et al. Optical properties of the cubic alloy (In,Ga)N , 2009 .

[13] D. As,et al. Room temperature green light emission from nonpolar cubic InGaN∕GaN multi-quantum-wells , 2007, cond-mat/0702100.

[14] K. Lischka,et al. In situ growth regime characterization of cubic GaN using reflection high energy electron diffraction , 2007, cond-mat/0702018.

[15] F. Cerdeira,et al. Photoluminescence measurements on cubic InGaN layers deposited on a SiC substrate , 2006 .

[16] M. Weinert,et al. Selected growth of cubic and hexagonal GaN epitaxial films on polar MgO(111). , 2005, Physical review letters.

[17] Vlado K. Lazarov,et al. Structure of the hydrogen-stabilized MgO (111) - (1×1) polar surface: Integrated experimental and theoretical studies , 2005 .

[18] K. Lischka,et al. Light emission from cubic InGaN nanostructures , 2003, Microelectron. J..

[19] Paul R. C. Kent,et al. Carrier localization and the origin of luminescence in cubic InGaN alloys , 2001 .

[20] Hui Yang,et al. X-Ray diffraction determination of the fractions of hexagonal and twinned phases in cubic GaN layers grown on (001)GaAs substrate , 2001 .

[21] T. Chassagne,et al. p and n type doping of cubic GaN on SiC (001) , 2001 .

[22] O. Brandt,et al. Heteroepitaxy of Cubic GaN , 1997 .

[23] G. Feuillet,et al. Structural Analysis of Cubic GaN through X-Ray Pole Figure Generation , 1997 .

[24] V. Bagnato,et al. Analysis of a Vapor-Cell Magneto-Optical Trap for Sodium Atoms Based on a Two-Level Doppler Theory , 1997 .

[25] Yang,et al. Surface reconstructions of zinc-blende GaN/GaAs(001) in plasma-assisted molecular-beam epitaxy. , 1995, Physical review. B, Condensed matter.