Output Characteristics of III-V Quantum Dot Injection Microdisk Lasers

N. Kryzhanovskaya; E. Moiseev; A. Nadtochiy; Ivan Melnichenko; N. Fominykh; Khabibullin R.; Galiev R.; Pavlov A.; A. Zhukov; I. Makhov

doi:10.1109/ACP/IPOC63121.2024.10809972

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Output Characteristics of III-V Quantum Dot Injection Microdisk Lasers

P. 1–4.

Kryzhanovskaya N., Moiseev E., Nadtochiy A., Ivan Melnichenko, Fominykh N., Khabibullin R., Galiev R., Pavlov A., Zhukov A., Makhov I.

Semiconductor microdisk lasers developed using III-V epitaxial materials are widely studied during the last decade due to the bright prospectives coming from high quality circular cavity. The threshold and spectral characteristics of microlasers have been studied in sufficient detail, but the issue of the output power of such lasers has not been addressed, just as the features of the light-current characteristics have been poorly studied. The complexity of this issue is associated with the high Q factor of the disk resonator, and therefore the low level of radiative loss. In addition, the peculiarities of the farfield radiation pattern of a disk laser make the usual methods to measure light-current dependences incomplete, in which part of the information about the microlaser radiation is lost due to the fact that the laser radiation has a complex nature in the lateral and vertical directions. In this work, we provide a comprehensive overview on the main parameters influencing output power and efficiency progress of III-V quantum dot injection microdisk lasers. We discuss fundamental concepts related to the output power limitations in the quantum dot disk lasers. We demonstrate improving of the far-field diagram of disk lasers with small deviation of the cavity shape from circular. Limaçon-shaped microlasers were used to increase output power and wall-plug efficiency. We also summarize methods to control the output power and to improve thermal characteristics of a small disk lasers.

Keywords: микродисковый лазер microdisk laser Quantum dot lasers far-field pattern лазер на квантовых точках картина дальнего поля

Publication based on the results of:

Creation and investigation of semiconductor micro- and nanolasers for photonic integrated circuits (2024)

In book

2024 Asia Communications and Photonics Conference (ACP) and International Conference on Information Photonics and Optical Communications (IPOC)

IEEE, 2024.

Исследование излучения микродискового лазера, монолитно интегрированного с оптическим волноводом

Fedosov I. S., Fominykh N., Kryzhanovskaya N. et al., Физика и техника полупроводников 2025 Т. 59 № 7 С. 388–391

The power and spectral characteristics of the radiation of a semiconductor microdisk laser with a diameter of 40 µm, monolithically integrated with an optical waveguide, have been studied. To reduce absorption in the waveguide, current pumping was used. In the light–current dependence, features associated with the onset of generation at a longer-wavelength resonance are observed. ...

Added: February 27, 2026

Spectral composition of radiation from microlaser coupled to waveguide

Fedosov I. S., Fominykh N., Kryzhanovskaya N. et al., St. Petersburg Polytechnical University Journal: Physics and Mathematics 2025 Vol. 18 No. 3.2 P. 200–204

We investigate the mode composition of a microdisk laser coupled with an optical waveguide. The output spectra of emission and light-current characteristic of the microlaser obtained from the output edge of the waveguide are studied. The microlaser demonstrates single-mode emission in consecutive ranges of injection currents, that are alternated with pronounced mode hoping. The intensity ...

Added: January 12, 2026

Spectral Composition of Radiation from Microlaser Coupled to Waveguide

Fedosov I. S., Fominykh N., Kryzhanovskaya N. et al., , in: BOOK of ABSTRACTS 12-th International School and Conference on Optoelectronics, Photonics, Engineering and Nanostructures.: -, 2025. Ch. 45 P. 112–113.

We investigate the spectral composition of radiation of microdisk lasers coupled with optical waveguides. We study output spectrum and light-current characteristic of the microlaser obtained from the output edge of the optical waveguide. The microlaser demonstrated single-mode emission in extended ranges of the injection current, up to 75 mA, that are alternated with pronounced mode ...

Added: October 29, 2025

Far-field patterns and lasing threshold of limaçon − and quadrupole-shaped microlasers with InGaAs quantum well-dots

Moiseev E., Ivanov K., Khabibullin R. et al., Optics and Laser Technology 2025 Vol. 183 Article 112299

We demonstrate that microlasers with an anisotropic cavity (limaçon- or quadrupole-shaped) containing quantum well-dots in the active region are able to operate under continuous wave current injection at 90 °C. Deviation of the cavity shape from circular leads to the directionality of the emission in the lateral direction, while the quality factor of the structures and ...

Added: December 23, 2024

Effect of non-uniform carrier injection on two-state lasing in quantum dot microdisks with split electrical contact

A. A. Karaborchev, I. S. Makhov, Shandyba N. A. et al., Journal of Physics D: Applied Physics 2024 Vol. 57 No. 28 Article 285104

In this papaer, the emission characteristics of InAs/InGaAs quantum dot (QD) microdisk lasers, of different cavity diameters, with a top split electrical contact formed using the focused ion beam technique are investigated. The dependences of the threshold currents of two-state lasing (i.e. currents corresponding to the start of the ground- and excited-state lasing) for microdisks ...

Added: August 26, 2024

Fast switching between the ground- and excited-state lasing in a quantum-dot microdisk triggered by sub-ps pulses

Zhukov A., Nadtochiy A., Alexey Karaborchev et al., Optics Letters 2024 Vol. 49 No. 2 P. 330–333

A quantum-dot microdisk was optically pumped by continuous-wave excitation with a level sufficient for the ground-state lasing. The microdisk was additionally illuminated with sub-ps pulses of various powers. It was found that there is a critical level of pulse power that determines the subsequent transient process of the microlaser. Depending on the level of the ...

Added: February 5, 2024

Hybrid multilevel-multiwavelength signaling scheme for optical data transmission

Maximov M., Shernyakov Y., Gordeev N. et al., Physica Scripta 2023 Vol. 98 No. 12 Article 125119

We suggest an idea of data encoding scheme based on the switching from the ground state (GS) to excited state (ES) lasing in quantum dot (QD) lasers with increase in injection current. The groups of two bits are assigned to lasing spectra that comprise either one or both GS and/or ES lasing lines depending on ...

Added: November 30, 2023

Temperature evolution of two-state lasing in microdisk lasers with InAs/InGaAs quantum dots

Makhov I., Ivanov K., Moiseev E. et al., Nanomaterials 2023 Vol. 13 No. 5 Article 877

One-state and two-state lasing is investigated experimentally and through numerical simulation as a function of temperature in microdisk lasers with Stranski–Krastanow InAs/InGaAs/GaAs quantum dots. Near room temperature, the temperature-induced increment of the ground-state threshold current density is relatively weak and can be described by a characteristic temperature of about 150 K. At elevated temperatures, a faster (super-exponential) increase in ...

Added: April 25, 2023

Two-state lasing in microdisk laser diodes with quantum dot active region

Makhov I., Ivanov K., Moiseev E. et al., Photonics 2023 Vol. 10 No. 3 Article 235

The two-state lasing phenomenon, which manifests itself in simultaneous laser emission through several optical transitions of quantum dots, is studied in microdisk diode lasers with different cavity diameters. The active region represents a multiply stacked array of self-organized InAs/InGaAs/GaAs quantum dots emitting in the wavelength range of 1.1–1.3 um. Two-state lasing, which involves the ground-state and the first excited-state ...

Added: April 25, 2023

Investigation of far-field patterns of semiconductor microlasers with an active region based on InGaAs/GaAs quantum well-dots

E. I. Moiseev, N. V. Kryzhanovskaya, Zubov F. I. et al., St. Petersburg Polytechnical University Journal: Physics and Mathematics 2022 Vol. 15 No. 3.2 P. 25–30

This paper is the first study of the far-field patterns of semiconductor microlasers with an active region based on In0.4Ga0.6As/GaAs quantum well-dots. A theoretical model describing the far-field radiation pattern is developed. It is shown that in the vertical direction the radiation pattern has a narrow beam divergence (the most of the power is confined ...

Added: March 15, 2023

Optical Loss in Microdisk Lasers with Dense Quantum Dot Arrays

Zhukov A., Moiseev E., Nadtochiy A. et al., IEEE Journal of Quantum Electronics 2023 Vol. 59 No. 1 Article 2000108

We discuss the origin of optical losses in microdisk lasers with a dense array of InGaAs quantum dots in the active region. In particular, we study the effect of microlaser diameter D variation from 15 to 200 μm on optical losses of different nature. A strong dependence of the lasing wavelength on the diameter is observed: ...

Added: January 26, 2023

Performance of InGaAs/GaAs Microdisk Lasers with Improved Thermal Resistance

Kryzhanovskaya N., Dragunova A., Fominykh N. et al., , in: 2022 International Conference Laser Optics (ICLO).: IEEE, 2022. P. 1–1.

We discuss the static characteristics and high-frequency performance of microdisk lasers with an active region based on dense array of InGaAs/GaAs quantum well-dots having the improved thermal resistance. The decrease in thermal resistance of the microlasers is achieved by epi-side down bonding on a heat-conducting Si substrate. Compared to the characteristics of initial microlasers, the ...

Added: September 27, 2022

Strip-loaded horizontal slot waveguide for routing microdisk laser emission

Fetisova M., Kryzhanovskaya N., Reduto I. et al., Journal of the Optical Society of America B: Optical Physics 2020 Vol. 37 No. 6 P. 1878–1885

A strip-loaded horizontal slot waveguide is used for routing the emission of a microdisk laser. The active region of the laser contains InAs/InGaAs/GaAs quantum dots operating in CW mode under optical pumping. Although the quantum dots emit in a broad range, the laser emission is single mode with 𝜆=1290nmλ=1290nm. Atomic layer deposition is used for the ...

Added: September 23, 2022

Improvement of thermal resistance in InGaAs/GaAs/AlGaAs microdisk lasers bonded onto silicon

F I Zubov, E I Moiseev, A M Nadtochiy et al., Semiconductor Science and Technology 2022 Vol. 37 No. 7 Article 075010

Epi-side down bonding on a silicon substrate of AlGaAs/GaAs microdisk lasers is presented. A heterostructure with coupled large optical cavities enables location of an InGaAs quantum dot active region at a distance of ∼1 µm from the heterostructure surface. The thermal resistance was reduced to 0.2 and 0.1 K/mW for disks of 30 and 50 µm in diameter, ...

Added: July 12, 2022

Dynamic characteristics and noise modelling of directly modulated quantum well-dots microdisk lasers on silicon

Zhukov A., Moiseev E., Nadtochiy A. et al., Laser Physics Letters 2022 Vol. 19 No. 2 Article 025801

The small-signal amplitude modulation, threshold, and spectral characteristics of microdisk lasers with InGaAs/GaAs quantum well-dots active region were studied jointly with the spectral and threshold parameters of edge-emitting lasers made from the same epitaxial heterostructure. Using the obtained material parameters, the relative intensity noise of the microdisk lasers was calculated as a function of the ...

Added: February 28, 2022

On-chip light detection using integrated microdisk laser and photodetector bonded onto Si board

Kryzhanovskaya N., Zubov Fedor I., Moiseev E. et al., Laser Physics Letters 2022 Vol. 19 No. 1 Article 016201

Characteristics of a compact III–V optocoupler heterogeneously integrated on a silicon substrate and formed by a 31 μm in diameter microdisk (MD) laser with a closely-spaced 50 μm × 200 μm waveguide photodetector are presented. Both optoelectronic devices were fabricated from the epitaxial heterostroctructures with InGaAs/GaAs quantum well-dot layers. The measured dark current density of the photodetector was as ...

Added: December 2, 2021