Sung-Yul L Park scite author profile

Sung-Yul L Park

2Publications

1Citation Statement Received

84Citation Statements Given

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Korea Institute of Science and Technology

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Single Quantum Dot Selection and Tailor‐Made Photonic Device Integration using a Nanoscale‐Focus Pinspot

et al. 2023

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Among the diverse platforms of quantum light sources, epitaxially grown semiconductor quantum dots (QDs) are one of the most attractive workhorses for realizing quantum photonic technologies owing to their outstanding brightness and scalability. However, the spatial and spectral randomness of most QDs severely hinders the construction of large-scale photonic platforms. In this work, a methodology is presented to deterministically integrate single QDs with tailor-made photonic structures. A nondestructive luminescence picking method termed as nanoscale-focus pinspot (NFP) is applied using helium-ion microscopy to reduce the luminous QD density while retaining the surrounding medium. A single QD emission is only extracted out of the high-density ensemble QDs. Then the tailor-made photonic structure of a circular Bragg reflector (CBR) is designed and deterministically integrated with the selected QD. Given that the microscopy can image with nanoscale resolution and apply NFP in situ, photonic devices can be deterministically fabricated on target QDs. The extraction efficiency of the NFP-selected QD emission is improved by 25 times after the CBR integration. Since the NFP method only controls the luminescence without destroying the medium, it is applicable to various photonic structures such as photonic waveguides or photonic crystal cavities regardless of materials.

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Single Quantum Dot Selection and Tailor‐Made Photonic Device Integration using a Nanoscale‐Focus Pinspot (Adv. Mater. 26/2023)

et al. 2023

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From Random to Deterministic Coupling In article number 2210667, Minho Choi, Jin Dong Song, Young‐Ho Ko, Yong‐Hoon Cho, and co‐workers use a non‐destructive nanoscale focus pin‐spot method to select an array of single quantum dots from randomly distributed ensembles. Since the selected quantum dots are located at predetermined positions, they can be deterministically coupled with photonic structures and exhibit high collection efficiency.

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Sung-Yul L Park

Single Quantum Dot Selection and Tailor‐Made Photonic Device Integration using a Nanoscale‐Focus Pinspot

Single Quantum Dot Selection and Tailor‐Made Photonic Device Integration using a Nanoscale‐Focus Pinspot (Adv. Mater. 26/2023)

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