New structure of semiconductor lasers: quantum cascade vertical-cavity surface-emitting laser (QC VCSEL)

被引：0

作者：

Nakwaski, Wlodzimierz ^{[1
]}

Grzempa, Sandra ^{[1
]}

Dems, Maciej ^{[1
]}

Czyszanowski, Tomasz ^{[1
]}

机构：

[1] Lodz Univ Technol, Inst Phys, Photon Grp, 219 Wolczanska, PL-93005 Lodz, Poland

来源：

LASER TECHNOLOGY 2018: PROGRESS AND APPLICATIONS OF LASERS | 2018年 / 10974卷

关键词：

Sub-wavelength grating structure; quantum cascade laser; vertical-cavity surface emitting laser; HIGH-CONTRAST GRATINGS;

D O I：

10.1117/12.2519617

中图分类号：

O43 [光学];

学科分类号：

070207 ; 0803 ;

摘要：

A new structure of semiconductor lasers called the quantum-cascade vertical-cavity surface emitting laser (QC VCSEL) is proposed in the present paper. A structure of the QC VCSEL is a cross of the quantum-cascade laser (QCL) and the vertical-cavity surface-emitting laser (VCSEL). The QC VCSEL is expected to demonstrate important advantages of laser emission of both the QCL and the VCSEL without their drawbacks. In the QC VCSEL, the monolithic high-contrast grating (MHCG) structure is applied to cope with the fundamental requirement of the polarization direction of the electro-magnetic radiation perpendicular to the quantum cascade (QC) necessary to initiate within it the stimulated emission. The QC VCSEL structure recommended in the present paper is a result of the advanced modeling with the aid of our comprehensive self-consistent optical-electrical model.

引用

页数：8

共 26 条

[1] High-contrast gratings for integrated optoelectronics [J].

Chang-Hasnain, Connie J. ;

Yang, Weijian .

ADVANCES IN OPTICS AND PHOTONICS, 2012, 4 (03) :379-440

[2] Subwavelength grating-mirror VCSEL with a thin oxide gap [J].

Chung, Il-Sung ;

Mork, Jesper ;

Gilet, Philippe ;

Chelnokov, Alexei .

IEEE PHOTONICS TECHNOLOGY LETTERS, 2008, 20 (1-4) :105-107

[3]

Czyszanowski T., 2017, P SOC PHOTO-OPT INS

[4] Quantum-Cascade Vertical-Cavity Surface-Emitting Laser [J].

Czyszanowski, Tomasz .

IEEE PHOTONICS TECHNOLOGY LETTERS, 2018, 30 (04) :351-354

[5] Subwavelength grating as both emission mirror and electrical contact for VCSELs in any material system [J].

Czyszanowski, Tomasz ;

Gebski, Marcin ;

Dems, Maciej ;

Wasiak, Michal ;

Sarzala, Robert ;

Panajotov, Krassimir .

SCIENTIFIC REPORTS, 2017, 7

[6] Plane Wave Admittance Method - a novel approach for determining the electromagnetic modes in photonic structures [J].

Dems, M ;

Kotynski, R ;

Panajotov, K .

OPTICS EXPRESS, 2005, 13 (09) :3196-3207

[7] Modelling of high-contrast grating mirrors. The impact of imperfections on their performance in VCSELs [J].

Dems, M. .

OPTO-ELECTRONICS REVIEW, 2011, 19 (03) :340-345

[8] Monolithic High-Contrast Gratings: Why Do They Not Scatter Light? [J].

Dems, Maciej .

JOURNAL OF LIGHTWAVE TECHNOLOGY, 2017, 35 (02) :159-165

[9] QUANTUM CASCADE LASER [J].

FAIST, J ;

CAPASSO, F ;

SIVCO, DL ;

SIRTORI, C ;

HUTCHINSON, AL ;

CHO, AY .

SCIENCE, 1994, 264 (5158) :553-556

[10] Monolithic high-index contrast grating: a material independent high-reflectance VCSEL mirror [J].

Gebski, M. ;

Dems, M. ;

Szerling, A. ;

Motyka, M. ;

Marona, L. ;

Kruszka, R. ;

Urbanczyk, D. ;

Walczakowski, M. ;

Palka, N. ;

Wojcik-Jedlinska, A. ;

Wang, Q. J. ;

Zhang, D. H. ;

Bugajski, M. ;

Wasiak, M. ;

Czyszanowski, T. .

OPTICS EXPRESS, 2015, 23 (09) :11674-11686

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