Kian Fong Ng scite author profile

Kian Fong Ng

3Publications

39Citation Statements Received

96Citation Statements Given

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Affiliations

National University of Singapore, Centre for Quantum Technologies

Publications

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Mechanically tunable integrated beamsplitters on a flexible polymer platform

Grieve

Rodrigues

et al. 2017

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We report the development of a monolithic, mechanically tunable waveguide platform based on the flexible polymer polydimethyl siloxane (PDMS). Such devices preserve single mode guiding across a wide range of linear geometric distortions. This enables the realization of directional couplers with tunable splitting ratios via elastic deformation of the host chip. We fabricated several devices of this type, and verified their operation over a range of wavelengths, with access to the full range of input/output ratios. The low cost and relative ease of fabrication of these devices via a modified imprint lithographic technique make them an attractive platform for investigation of large scale optical random walks and related optical phenomena.

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Elastomeric Waveguide on-Chip Coupling of an Encapsulated MoS₂ Monolayer

et al. 2019

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We propose a robust photonic platform for encapsulation and addressing of optically active 2D-and nano-materials. Our implementation utilises a monolayer of MoS 2 transition metal dichalcogenide embedded in an elastomeric waveguide chip. The structure is manufactured from PDMS using soft-lithography and capable of sustaining a single mode of guided light. We prove that this setup facilitates addressing of the 2D material flake by pumping it with polarised laser light and gathering polarisation-resolved photoluminescence spectra with the extinction ratio of 31, which highlights the potential for selection-rule dependent measurements. Our results demonstrate improved handling of the material and experimental simplification compared to other techniques.

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A data reduction and compression description for high throughput time-resolved electron microscopy

Datta

Balakrishnan

et al. 2021

Nat Commun

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Fast, direct electron detectors have significantly improved the spatio-temporal resolution of electron microscopy movies. Preserving both spatial and temporal resolution in extended observations, however, requires storing prohibitively large amounts of data. Here, we describe an efficient and flexible data reduction and compression scheme (ReCoDe) that retains both spatial and temporal resolution by preserving individual electron events. Running ReCoDe on a workstation we demonstrate on-the-fly reduction and compression of raw data streaming off a detector at 3 GB/s, for hours of uninterrupted data collection. The output was 100-fold smaller than the raw data and saved directly onto network-attached storage drives over a 10 GbE connection. We discuss calibration techniques that support electron detection and counting (e.g., estimate electron backscattering rates, false positive rates, and data compressibility), and novel data analysis methods enabled by ReCoDe (e.g., recalibration of data post acquisition, and accurate estimation of coincidence loss).

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Kian Fong Ng

Mechanically tunable integrated beamsplitters on a flexible polymer platform

Elastomeric Waveguide on-Chip Coupling of an Encapsulated MoS₂ Monolayer

A data reduction and compression description for high throughput time-resolved electron microscopy

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Kian Fong Ng

Mechanically tunable integrated beamsplitters on a flexible polymer platform

Elastomeric Waveguide on-Chip Coupling of an Encapsulated MoS2 Monolayer

A data reduction and compression description for high throughput time-resolved electron microscopy

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Product

Resources

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Elastomeric Waveguide on-Chip Coupling of an Encapsulated MoS₂ Monolayer