Aurimas Sakanas scite author profile

It is an important challenge to reduce the power consumption and size of lasers, but progress was so far held back by quantum noise overwhelming the coherent radiation at reduced power levels. Thus, despite considerable progress on microscale and nanoscale lasers, such as photonic crystal lasers, metallic lasers, and plasmonic lasers, the coherence length is very limited. Here, we show that a bound state in the continuum based on Fano interference can effectively quench quantum fluctuations. Although fragile in nature, this unusual state redistributes photons such that the effect of spontaneous emission is suppressed.Based on this concept, we experimentally demonstrate a microscopic laser with a linewidth that is more than 20 times smaller than existing microscopic lasers and show that several orders of magnitude further reduction is feasible. These findings pave the way for numerous applications of microscopic lasers and point to new opportunities beyond photonics. many different realizations [25], including the use of heterogeneous [8] or hybrid [52] integration, as well as structures with smaller footprint [13], [53]. Methods Theoretical model of the Fano BIC laserDetails are provided in the Supplementary Information, sections A.1 to A.3. Design and fabrication of the photonic crystal buried heterostructure Fano BIC laserDetails are provided in the Supplementary Information, sections B and C.1. Experimental setup and self-homodyne technique for laser linewidth measurementsDetails are provided in the Supplementary Information, sections C.2.

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Bright Quantum Dot Single-Photon Emitters at Telecom Bands Heterogeneously Integrated on Si

Holewa¹,

Sakanas²,

Gür³

et al. 2022

ACS Photonics

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Whereas the Si photonic platform is highly attractive for scalable optical quantum information processing, it lacks practical solutions for efficient photon generation. Self-assembled semiconductor quantum dots (QDs) efficiently emit photons in the telecom bands (1460–1625 nm) and allow for heterogeneous integration with Si. In this work, we report on a novel, robust, and industry-compatible approach for achieving single-photon emission from InAs/InP QDs heterogeneously integrated with a Si substrate. As a proof of concept, we demonstrate a simple vertical emitting device, employing a metallic mirror beneath the QD emitter, and experimentally obtained photon extraction efficiencies of ∼10%. Nevertheless, the figures of merit of our structures are comparable with values previously only achieved for QDs emitting at shorter wavelength or by applying technically demanding fabrication processes. Our architecture and the simple fabrication procedure allows for the demonstration of high-purity single-photon generation with a second-order correlation function at zero time delay, g (2)(τ = 0) < 0.02, without any corrections at continuous wave excitation at the liquid helium temperature and preserved up to 50 K. For pulsed excitation, we achieve the as-measured g (2)(0) down to 0.205 ± 0.020 (0.114 ± 0.020 with background coincidences subtracted).

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Broadband dielectric spectroscopy of BaTiO3–Ni0.5Zn0.5Fe2O4 composite ceramics

Sakanas

Grigalaitis

Banys

et al. 2014

Journal of Alloys and Compounds

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Comparison of processing-induced deformations of InP bonded to Si determined by e-beam metrology: Direct vs. adhesive bonding

Sakanas

Semenova

Ottaviano

et al. 2019

Microelectronic Engineering

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In this paper, we employ an electron beam writer as metrology tool to investigate distortion of an exposed pattern of alignment marks in heterogeneously bonded InP on silicon. After experimental study of three different bonding and processing configurations which represent typical on-chip photonic device fabrication conditions, the smallest degree of linearly-corrected distortion errors is obtained for the directly bonded wafer, with the alignment marks both formed and measured on the same InP layer side after bonding (equivalent to single-sided processing of the bonded layer). Under these conditions, multilayer exposure alignment accuracy is limited by the InP layer deformation after the initial pattern exposure mainly due to the mechanical wafer clamping in the e-beam cassette. Bonding-induced InP layer deformations dominate in cases of direct and BCB bonding when the alignment marks are formed on one InP wafer side, and measured after bonding and substrate removal from another (equivalent to double-sided processing of the bonded layer). The findings of this paper provide valuable insight into the origin of the multilayer exposure misalignment errors for the bonded III-V on Si wafers, and identify important measures that need to be taken to optimize the fabrication procedures for demonstration of efficient and high-performance on-chip photonic integrated devices.

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Electrically‐Driven Photonic Crystal Lasers with Ultra‐low Threshold

Dimopoulos

Sakanas

Marchevsky

et al. 2022

Laser & Photonics Reviews

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Light sources with ultra-low energy consumption and high performance are required to realize optical interconnects for on-chip communication. Photonic crystal (PhC) nanocavity lasers are one of the most promising candidates to fill this role. In this work, we demonstrate an electrically-driven PhC nanolaser with an ultra-low threshold current of 10.2 µA emitting at 1540 nm and operated at room temperature. The lasers are InP-based bonded on Si and comprise a buried heterostructure active region and lateral p-i-n junction. The static characteristics and the thermal properties of the lasers have been characterized. The effect of disorder and p-doping absorption on the Q-factor of passive cavities was studied. We also investigate the leakage current due to the lateral p-i-n geometry by comparing the optical and electrical pumping schemes.

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Aurimas Sakanas

Ultra-coherent Fano laser based on a bound state in the continuum

Bright Quantum Dot Single-Photon Emitters at Telecom Bands Heterogeneously Integrated on Si

Broadband dielectric spectroscopy of BaTiO3–Ni0.5Zn0.5Fe2O4 composite ceramics

Comparison of processing-induced deformations of InP bonded to Si determined by e-beam metrology: Direct vs. adhesive bonding

Electrically‐Driven Photonic Crystal Lasers with Ultra‐low Threshold

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