Experimental Demonstration of Dark‐State Metasurface Laser with Controllable Radiative Coupling

Droulias, Sotiris; Mohamed, Sughra; Rekola, Heikki; Hakala, Tommi K.; Soukoulis, Costas M.; Koschny, Thomas

doi:10.1002/adom.202102679

Cited by 7 publications

(3 citation statements)

References 41 publications

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“…The unambiguous evidence for lasing is also provided by the emission images shown in the insets of Figure 5c, where the interference fringes are found for the device operated in either the single‐ or dual‐wavelength modes. In addition, we also find that the Ag nanowire can function as a scatter to out‐couple the power stored in the dark mode to the free‐space, [ 42,43 ] as illustrated in the insets of Figure 5c, where the brightened dots are found at the position of Ag nanowires. It is also noted that for the dual‐wavelength device the thresholds of lasing emissions at 882 nm (25 µJ cm −2 per pulse) and 945 nm (17.6 µJ cm −2 per pulse) are higher than their respective monochromatic counterparts as shown in Figure 5b (see detail in Figure S9, Supporting Information ).…”

Section: Resultsmentioning

confidence: 88%

“…Our design can provide an elegant and versatile on-chip lasing platform to readily integrate with other gain materials such as quantum dots, semiconductor nanowires and2D materials. Moreover, patterning our device into an array may deliver the coherence light source with controllable radiation, [42,43] which may open up exciting prospects for ultracompact photonic integrated circuits and high-throughput biochemical sensing.…”

Section: Discussionmentioning

confidence: 99%

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Low‐Threshold Multiwavelength Plasmonic Nanolasing in an “H”‐Shape Cavity

Zhang

et al. 2023

Laser & Photonics Reviews

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Multiwavelength plasmonic nanolasers are central to the quest for ultradense and versatile photonic integrations. However, the insufficient optical feedback and mode selection strategies result in a high lasing threshold and multi‐mode operation with limited spectral purity and stability. Here, a multiwavelength near‐infrared plasmonic nanolaser with high mode purity by leveraging a nontrivial “H”‐shape plasmonic cavity is demonstrated. The nanolaser is constructed by inserting InGaAs/GaAs multi‐quantum‐disk (MQD) nanowires into a metallic Fabry‐Perot cavity consisting of a pair of Ag nanowires positioned on an ultrasmooth Au film. The design is endowed with strong optical feedback to enhance the energy transfer between the exciton and plasmon, rendering a significant reduction of the lasing threshold. More importantly, the “H”‐shape cavity is featured with a large flexibility in tuning the resonance wavelength, where multiwavelength lasing with the virtues of single‐mode is realized at room temperature. The results make a crucial step toward near‐infrared multiwavelength plasmonic nanolasers and open up exciting opportunities for applications such as ultracompact photonic integrated circuits and high‐throughput biochemical sensing.

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Section: Resultsmentioning

confidence: 88%

Section: Discussionmentioning

confidence: 99%

Low‐Threshold Multiwavelength Plasmonic Nanolasing in an “H”‐Shape Cavity

Zhang

et al. 2023

Laser & Photonics Reviews

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“…The propagating direction of incident light θ represents the angle of k off z axis and φ represents the angle off x axis. The refractive index of Al 2 O 3 spacer is 1.56 [35]. We utilize a lossy-metal model for gold with σ gold = 7 × 10 6 S m −1 [25].…”

Section: Design and Simulationmentioning

confidence: 99%

Large and active circular dichroism in a photosensitive silicon based metasurface

Zhu,

Jiang,

Zhao

et al. 2024

J. Opt.

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Active circular dichroism (CD) is highly required for the flexible polarization control in modern terahertz (THz) systems. In this work, we numerically achieved large and active CD in THz region by optically controlling photosensitive silicon in a gold/silicon hybrid cross-shape metasurface. At the incident angle of 75°, the proposed metasurface exhibits large CD. By tuning the conductivity of photosensitive silicon with optical pump, the large CD (0.89) could be dynamically switched to 0.06 and the peak frequency is blue shifted around 0.09 THz. The simultaneous switching of CD strength and peak frequency is attributed to the variation of resonance modes between electric and magnetic dipole resonances. Our proposed active metasurface with dynamic CD has profound potential in the fields of reconfigurable THz devices.

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Ultrathin, Dynamically Controllable Circularly Polarized Emission Laser Enabled by Resonant Chiral Metasurfaces

Katsantonis,

Tasolamprou,

Economou

et al. 2024

ACS Photonics

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We demonstrate a simple, low-cost, and ultracompact chiral resonant metasurface design, which, by strong local coupling to a quantum gain medium (quantum emitters), allows to implement an ultrathin metasurface laser, capable of generating tunable circularly polarized coherent lasing output. According to our detailed numerical investigations, the lasing emission can be transformed from linear to circular and switch from right-to left-handed circularly polarized (CP) not only by altering the metasurface chiral response but also by changing the polarization of a linearly polarized pump wave, thus enabling dynamic lasing-polarization control. Given the increasing interest for CP laser emission, our chiral metasurface laser design proves to be a versatile yet straightforward strategy to generate a strong and tailored CP emission laser, promising great potential for future applications in both photonics and materials science.

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Experimental Demonstration of Dark‐State Metasurface Laser with Controllable Radiative Coupling

Cited by 7 publications

References 41 publications

Low‐Threshold Multiwavelength Plasmonic Nanolasing in an “H”‐Shape Cavity

Low‐Threshold Multiwavelength Plasmonic Nanolasing in an “H”‐Shape Cavity

Large and active circular dichroism in a photosensitive silicon based metasurface

Ultrathin, Dynamically Controllable Circularly Polarized Emission Laser Enabled by Resonant Chiral Metasurfaces

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