Nina Hong scite author profile

Abstract. The multi-pass photoacoustic spectrometer (PAS) is an important tool for the direct measurement of light absorption by atmospheric aerosol. Accurate PAS measurements heavily rely on accurate calibration of their signal. Ozone is often used for calibrating PAS instruments by relating the photoacoustic signal to the absorption coefficient measured by an independent method such as cavity ring down spectroscopy (CRD-S), cavity-enhanced spectroscopy (CES) or an ozone monitor. We report here a calibration method that uses measured absorption coefficients of aerosolized, light-absorbing organic materials and offer an alternative approach to calibrate photoacoustic aerosol spectrometers at 404 nm. To implement this method, we first determined the complex refractive index of nigrosin, an organic dye, using spectroscopic ellipsometry and then used this well-characterized material as a standard material for PAS calibration.

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Assembly of a Bacteriophage‐Based Template for the Organization of Materials into Nanoporous Networks

Courchesne

Klug

Chen

et al. 2014

Advanced Materials

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Optical properties of graphene oxide and reduced graphene oxide determined by spectroscopic ellipsometry

Schöche

Hong

Khorasaninejad

et al. 2017

Applied Surface Science

120

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Tunable mid-wave infrared Fabry-Perot bandpass filters using phase-change GeSbTe

Williams¹,

Hong²,

Julian³

et al. 2020

Opt. Express

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We demonstrate spectrally-tunable Fabry-Perot bandpass filters operating across the MWIR by utilizing the phasechange material GeSbTe (GST) as a tunable cavity medium between two (Ge:Si) distributed Bragg reflectors. The induced refractive index modulation of GST increases the cavity's optical path length, red-shifting the passband. Our filters have spectral-tunability of ~300 nm, transmission efficiencies of 60-75% and narrowband FWHMs of 50-65 nm (Q-factor ~70-90). We further show multispectral thermal imaging and gas sensing. By matching the filter's initial passband to a CO2 vibrational-absorption mode (~4.25 µm), tunable atmospheric CO2 sensing and dynamic plume visualization of added CO2 is realized.

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Orbital splitting and optical conductivity of the insulating state ofNbO2

2014

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Nina Hong

Calibration of a multi-pass photoacoustic spectrometer cell using light-absorbing aerosols

Assembly of a Bacteriophage‐Based Template for the Organization of Materials into Nanoporous Networks

Optical properties of graphene oxide and reduced graphene oxide determined by spectroscopic ellipsometry

Tunable mid-wave infrared Fabry-Perot bandpass filters using phase-change GeSbTe

Orbital splitting and optical conductivity of the insulating state ofNbO2

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