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Особенности вольт-амперной характеристики микродисковых лазеров на основе квантовых ям-точек InGaAs/GaAs
Письма в Журнал технической физики. 2019. Т. 45. № 19. С. 37-39.
Injection microlasers with an active region based on arrays of InGaAs/GaAs quantum well-dots,
formed by deep etching, have been studied. The manner in which the current–voltage characteristic changes
when the diameter microlaser is reduced shows that a nonelectrically conducting layer with thickness of about
1.5 μm is formed near the side surface, which leads to a decrease in the effective current flow area.
Priority areas:
engineering science
Language:
Russian
Zhukov A., Kryzhanovskaya N., Moiseev E. et al., Light: Science and Applications 2021 Vol. 10 P. 1-11
The subject of this paper is microlasers with the emission spectra determined by the whispering gallery modes. Owing to the total internal reflection of light on the sidewalls, a high Q-factor is achieved until the diameter is comparable to the wavelength. The light emission predominantly occurs in the plane of the structure, which facilitates the microlaser integration with ...
Added: April 19, 2021
Фетисова М. В., Корнев А. А., Букатин А. С. et al., Письма в Журнал технической физики 2019 Т. 45 № 23 С. 10-13
It is demonstrated that microdisk lasers about 10 μm in diameter with an active region based on
InAs/InGaAs quantum dots synthesized on GaAs substrates can be used for biodetection. Chimeric monoclonal
antibodies against the CD20 protein that are covalently attached to the surface of microdisk lasers
operating in an aqueous medium under optical pumping and room temperature were ...
Added: March 16, 2021
Zhukov A., Moiseev E., Kryzhanovskaya N. et al., Письма в Журнал технической физики 2019 Т. 45 № 16 С. 49-51
The characteristics of a 23-μm in diameter microdisk laser are studied under high-frequency modulation with a heatsink stabilized at 18оC. It is shown that the minimum consumption of electrical energy is 1.6 pJ/bit as achieved at modulation frequency of 4.2 GHz. The maximum modulation frequency reaches 6.7 GHz with energy consumption of 3.3 pJ/bit. ...
Added: December 8, 2020
Шерняков Ю. М., Гордеев Н. Ю., Паюсов А. С. et al., Физика и техника полупроводников 2021 Т. 55 № 3 С. 256-263
Edge-emitting lasers with active regions based on novel InGaAs/GaAs quantum heterostructures of transitional dimensionality, i.e., quantum well-dots, which are intermediate in properties between quantum wells and quantum dots, are studied. It is shown that the rate of the lasing-wavelength blue shift decreases with increasing number of quantum well-dot layers in the active region and with ...
Added: April 19, 2021
Fedor I. Zubov, Eduard I. Moiseev, Mikhail V. Maximov et al., IEEE Photonics Technology Letters 2022 Vol. 34 No. 24 P. 1349-1352
We report on the fabrication and studies of
Ø100 μm half-disk lasers with an active region based on
InGaAs/GaAs quantum dots providing very high modal gain.
Such resonators support whispering gallery modes propagating
at the cavity periphery. The microlasers show directional light
outcoupling: continuous-wave output power emitted from the
flat side reaches 17 mW, which is about 7 times greater than
the ...
Added: December 13, 2022
Gordeev N. Y., Максимов М. В., Payusov A. S. et al., Semiconductor Science and Technology 2021 Vol. 36 No. 1 Article 015008
We study material gain of a novel type of quantum heterostructures of mixed (0D/2D)
dimensionality referred to as quantum well-dots (QWDs). To evaluate the material gain in a
broad range of injection currents (30–1200 A cm−2 per-layer) we studied edge-emitting lasers
with various numbers of InGaAs/GaAs QWD layers in the active region and different
waveguide designs. The dependence of ...
Added: March 11, 2021
Ledentsov N. N., Shchukin V. A., Shernyakov Y. M. et al., Solid-State Electronics 2019 Vol. 155 P. 129-138
We report simulation of the conduction band alignment in tensile–strained GaP–enriched barrier structures and
experimental results on injection lasing in the green–orange spectral range (558–605 nm) in
(AlxGa1–x)0.5In0.5P–GaAs diodes containing such barriers. The wafers were grown by metal–organic vapor phase
epitaxy side–by–side on (8 1 1)A, (2 1 1)A and (3 2 2)A GaAs substrates, which surface orientations ...
Added: March 16, 2021
Kryzhanovskaya N., Мельниченко И. А., Букатин А. С. et al., Письма в Журнал технической физики 2021 Т. 47 № 19 С. 30-33
The dependence of the spectral position of the lasing line of a microdisk laser with InAs / InGaAs / GaAs
quantum dots on the refractive index of the aqueous solution, in which the microlaser is immersed.
For microlasers with a diameter of 10 μm placed in an aqueous solution of glucose, the maximum
the resonance shift is 9.4 nm ...
Added: October 11, 2021
Жуков А. Е., СПб. : ПОЛИТЕХ-ПРЕСС, 2019
Пособие включает в себя учебные материалы по физике и технологии полупроводниковых квантовых точек и лазеров на основе квантовых точек, включая микролазеры. Квантовые точки – это новая разновидность полупроводниковых квантоворазмерных структур (наноструктур), в которых движение носителей заряда ограничено во всех трех направлениях. Возникающая в результате размерного квантования модификация плотности состояний, а также большая энергия локализации носителей ...
Added: February 10, 2020
N. V. Kryzhanovskaya, K. A. Ivanov, N. A. Fominykh et al., Journal of Applied Physics 2023 Vol. 134 No. 10 Article 103101
We report on InGaAs/GaAs quantum dot injection microdisk lasers laterally connected with a bus waveguide fabricated by planar technology from the same epi-structure. Various coupling schemes of microlaser with waveguide are studied including a microlaser attached to a waveguide (zero gap), a 100 nm gap for evanescence light outcoupling, and with a waveguide surrounding the ...
Added: October 30, 2023
Zhukov A., Moiseev E., Nadtochiy A. et al., Письма в Журнал технической физики 2021 Т. 47 № 13 С. 28-31
The energy consumption of an uncooled microdisk quantum well-dot laser under high-frequency modulation was investigated. For a microlaser with a diameter of 20 μm, the lowest power consumption of 1.6 pJ was obtained per one bit of data transmitted using an optical signal. ...
Added: October 11, 2021
Зубов Ф. И., Максимов М. В., Kryzhanovskaya N. et al., Письма в Журнал технической физики 2021 Т. 47 № 20 С. 3-6
The output power is studied under continuous-wave operation of microdisk lasers with InGaAs/GaAs quantum well-dots hybridly integrated with a silicon substrate with the epitaxial side down using the thermocompression bonding method. Owing a decrease in the thermal resistance and suppression of self-heating, an increase in the values of currents is observed at which the power ...
Added: October 14, 2021
Makhov I., Бекман А. А., Кулагина М. М. et al., Письма в Журнал технической физики 2022 Т. 48 № 12 С. 40-43
В широком диапазоне инжекционных токов исследованы спектральные зависимости интенсивности электролюминесценции микродискового лазера диаметром 31 μm с активной областью на основе квантовых точек InAs/InGaAs, работающего в непрерывном режиме генерации. Впервые в инжекционном микродисковом лазере продемонстрирована генерация одновременно через основное и возбужденное состояния квантовых точек при высоких уровнях накачки. При слабых уровнях накачки лазерная генерация протекает через ...
Added: July 5, 2022
Nadtochiy A., Максимов М. В., Zhukov A., Письма в Журнал технической физики 2019 Т. 45 № 4 С. 42-45
The main characteristics of edge-emitting lasers with active regions based on nanoheterostructures
of a new type—quantum well-dots (QWDs) operating at various wavelengths—are compared. The QWD
structures operating at 980- and 1080-nm wavelengths demonstrated minimum values of threshold current
density (160 and 125 A/cm2), high internal quantum efficiency (74 and 85%), and low internal losses (1.1 and
0.9 cm–1), respectively. ...
Added: March 16, 2021
Nadtochiy A., Gordeev N., Kharchenko A. et al., Journal of Lightwave Technology 2021 Vol. 39 No. 23 P. 7479-7485
Modal absorptions in laser-like heterostructures containing
InAs self-assembled quantum dots (QDs) and InGaAs
quantum well-dots (QWDs) have been studied. The evaluation
of photoresponse as a function of waveguide length has allowed
us to determine per-layer modal absorptions of 69 and 13 cm-1
for the ground state optical transitions of QWDs and QDs, respectively.
The values of the modal absorption can be ...
Added: November 28, 2021
Makhov I., Ivanov K., Moiseev E. et al., Optics Letters 2023 Vol. 48 No. 13 P. 3515-3518
The peculiarities of two-state lasing in a racetrack microlaser
with an InAs/GaAs quantum dot active region are
investigated by measuring the electroluminescence spectra
at various injection currents and temperatures. Unlike
edge-emitting and microdisk lasers, where two-state lasing
involves the ground and first excited-state optical transitions
of quantum dots, in racetrack microlasers, we observe lasing
through the ground and second excited states. As ...
Added: June 27, 2023
Zubov F. I., Shernyakov Y. M., Gordeev N. Y. et al., Quantum Electronics 2022 Vol. 52 No. 7 P. 593-596
Lasers of different designs (stripe lasers and lasers with a half-disk cavity) based on InGaAs quantum dots formed by a mechanism different from the Stransky – Krastanov growth are studied. The possibility of lasing on the fundamental optical transition at record-high (134 – 153 cm–1) optical losses is demonstrated. The saturated modal gain is estimated ...
Added: December 13, 2022
Kryzhanovskaya N., Polubavkina Y., Moiseev E. et al., Journal of Applied Physics 2017 Vol. 121 No. 4 P. 043104
We present detailed studies of optically pumped InAs/InGaAs quantum dot based racetrack microlasers with 3.5-μm bend radius operating at room temperature. Q factor over 8000 and room temperature threshold power in the mW-range were achieved in the racetrack microlasers with straight section length ranging from 0 to 4 μm. A systematic investigation of the influence of the racetrack ...
Added: October 1, 2020
Zhukov A., Moiseev E., Nadtochiy A. et al., Technical Physics Letters 2020 Vol. 46 P. 515-519
The operation speed of microdisk lasers with quantum dots working at room temperature without thermal stabilization has been experimentally examined, and the widest modulation bandwidth of microdisks with various diameters has been calculated. It was shown that taking into account the effect of self-heating of a microlaser at high bias currents, which is manifested in ...
Added: September 29, 2020
Zubov F. I., Muretova M. E., Asryan L. V. et al., Journal of Applied Physics 2018 Vol. 124 No. 13 Article 133105
The feasibility of implementation of asymmetric barriers (ABs) made of common materials for
completely aluminum-free diode lasers is studied. The ABs adjoining a low-dimensional active
region on both sides aim to prevent bipolar population in the waveguide layers and thus to suppress
parasitic recombination therein, which in turn would enhance the efficiency and temperature-stability
of the device. Our search ...
Added: March 16, 2021
Zhukov A., Applied Physics B: Lasers and Optics 2018 Vol. 124 No. 2 Article 21
We report the observation of optically pumped continuous wave lasing in a self-rolled-up InGaAs/GaAs quantum dot microtube at room temperature. Single layer of InAs quantum dots (~ 2.6 ML coverage) in a GaAs well sandwiched by two AlGaAs barriers are incorporated into the tube wall as the gain media. As-fabricated microtube is supported by a 300-nm-thick Au pad, ...
Added: March 16, 2021
Moiseev E., Максимов М. В., Kryzhanovskaya N. et al., Физика и техника полупроводников 2020 Т. 54 № 2 С. 212-216
The results are presented on a comparative analysis of spectral and threshold characteristics of diode microdisk lasers operating at room temperature in a spectral range of 1.2xx µm with different active regions: InGaAsN/GaAs quantum wells or InAs/InGaAs/GaAs quantum dots. It was found that microlasers of a comparable size with quantum wells have higher lasing threshold ...
Added: September 30, 2020
Moiseev E., Kryzhanovskaya N., Zhukov A. et al., Optics Letters 2018 Vol. 43 No. 19 P. 4554-4557
We study injection GaAs-based microdisk lasers capable of operating at room and elevated temperatures. A novel type of active region is used, namely InGaAs quantum well-dots representing a dense array of indium-rich islands formed inside an indium-depleted residual quantum well by metalorganic vapor phase epitaxy. We demonstrate a high output power of 18 mW, a differential ...
Added: September 27, 2020
Zhukov A., Kryzhanovskaya N., Moiseev E. et al., Физика и техника полупроводников 2020 Т. 54 № 6 С. 570-574
A model is developed that makes it possible to analytically determine the threshold current of a microdisk laser with consideration for its self-heating as a function of the ambient temperature and the microlaser diameter. It is shown that there exists a minimum microdisk diameter determined by self-heating, up to which continuous-wave lasing can be reached ...
Added: September 15, 2020