Nicole Duncan scite author profile

Nicole Duncan

5Publications

30Citation Statements Received

74Citation Statements Given

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153

Affiliations

Seagen (United States), University of California, Berkeley, University of Washington

Publications

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The Gamma-Ray Imager/Polarimeter for Solar flares (GRIPS)

Shih

Lin

Hurford

et al. 2012

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The balloon-borne Gamma-Ray Imager/Polarimeter for Solar flares (GRIPS) instrument will provide a near-optimal combination of high-resolution imaging, spectroscopy, and polarimetry of solar-flare gamma-ray/hard X-ray emissions from ~20 keV to >~10 MeV. GRIPS will address questions raised by recent solar flare observations regarding particle acceleration and energy release, such as: What causes the spatial separation between energetic electrons producing hard X-rays and energetic ions producing gamma-ray lines? How anisotropic are the relativistic electrons, and why can they dominate in the corona? How do the compositions of accelerated and ambient material vary with space and time, and why? The spectrometer/polarimeter consists of sixteen 3D position-sensitive germanium detectors (3D-GeDs), where each energy deposition is individually recorded with an energy resolution of a few keV FWHM and a spatial resolution of <0.1 mm 3 . Imaging is accomplished by a single multi-pitch rotating modulator (MPRM), a 2.5-cm thick tungstenalloy slit/slat grid with pitches that range quasi-continuously from 1 to 13 mm. The MPRM is situated 8 meters from the spectrometer to provide excellent image quality and unparalleled angular resolution at gamma-ray energies (12.5 arcsec FWHM), sufficient to separate 2.2 MeV footpoint sources for almost all flares. Polarimetry is accomplished by analyzing the anisotropy of reconstructed Compton scattering in the 3D-GeDs (i.e., as an active scatterer), with an estimated minimum detectable polarization of a few percent at 150-650 keV in an X-class flare. GRIPS is scheduled for a continental-US engineering test flight in fall 2013, followed by long or ultra-long duration balloon flights in Antarctica.

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First flight of the Gamma-Ray Imager/Polarimeter for Solar flares (GRIPS) instrument

Duncan

Saint-Hilaire²,

Shih

et al. 2016

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The Gamma-Ray Imager/Polarimeter for Solar flares (GRIPS) instrument is a balloon-borne telescope designed to study solar-flare particle acceleration and transport. We describe GRIPS's first Antarctic long-duration flight in January 2016 and report preliminary calibration and science results.Electron and ion dynamics, particle abundances and the ambient plasma conditions in solar flares can be understood by examining hard X-ray (HXR) and gamma-ray emission (20 keV to 10 MeV). Enhanced imaging, spectroscopy and polarimetry of flare emissions in this energy range are needed to study particle acceleration and transport questions. The GRIPS instrument is specifically designed to answer questions including: What causes the spatial separation between energetic electrons producing hard X-rays and energetic ions producing gamma-ray lines? How anisotropic are the relativistic electrons, and why can they dominate in the corona? How do the compositions of accelerated and ambient material vary with space and time, and why? GRIPS's key technological improvements over the current solar state of the art at HXR/gamma-ray energies, the Reuven Ramaty High Energy Solar Spectroscopic Imager (RHESSI), include 3D position-sensitive germanium detectors (3D-GeDs) and a single-grid modulation collimator, the multi-pitch rotating modulator (MPRM). The 3D-GeDs have spectral FWHM resolution of a few hundred keV and spatial resolution <1 mm 3 . For photons that Compton scatter, usually 150 keV, the energy deposition sites can be tracked, providing polarization measurements as well as enhanced background reduction through Compton imaging. Each of GRIPS's detectors has 298 electrode strips read out with ASIC/FPGA electronics. In GRIPS's energy range, indirect imaging methods provide higher resolution than focusing optics or Compton imaging techniques. The MPRM gridimaging system has a single-grid design which provides twice the throughput of a bi-grid imaging system like RHESSI. The grid is composed of 2.5 cm deep tungsten-copper slats, and quasi-continuous FWHM angular coverage from 12.5-162 arcsecs are achieved by varying the slit pitch between 1-13 mm. This angular resolution is capable of imaging the separate magnetic loop footpoint emissions in a variety of flare sizes. In comparison, RHESSI's 35-arcsec resolution at similar energies makes the footpoints resolvable in only the largest flares.

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Detector and imaging systems for the gamma-ray imager/polarimeter for solar flares (GRIPS) instrument

Duncan

Shih

Hurford

et al. 2013

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Demodex Blepharitis: Its Role and Treatment in Ocular Surface Disease

Duncan

Sood²,

Khandelwal³

2022

Curr Ophthalmol Rep

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Direct β‐Selective Cross‐Coupling of Alkenyl Gold Complexes with Alkyl Electrophiles

2016

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Alkenyl gold complexes are common intermediates in gold‐catalyzed transformations of allenes and alkynes, and numerous methods for their functionalization have been explored. Particularly valuable are cross‐coupling reactions, which result in the formation of a new C–C bond. Several strategies are known that enable α‐selective cross‐coupling of alkenyl gold complexes with aryl, allyl, or acyl coupling partners. We describe the direct β‐selective cross‐coupling of alkenyl gold complexes with simple alkyl electrophiles. We also describe the effects of the steric and electronic properties of alkenyl gold complexes on the selectivity of the cross‐coupling reaction.

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Nicole Duncan

The Gamma-Ray Imager/Polarimeter for Solar flares (GRIPS)

First flight of the Gamma-Ray Imager/Polarimeter for Solar flares (GRIPS) instrument

Detector and imaging systems for the gamma-ray imager/polarimeter for solar flares (GRIPS) instrument

Demodex Blepharitis: Its Role and Treatment in Ocular Surface Disease

Direct β‐Selective Cross‐Coupling of Alkenyl Gold Complexes with Alkyl Electrophiles

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