P. Jenniskens scite author profile

P. Jenniskens

5Publications

61Citation Statements Received

58Citation Statements Given

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Search for Extraterrestrial Intelligence

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Radiation Modeling for the Reentry of the Hayabusa Sample Return Capsule

Winter

McDaniel

Chen

et al. 2012

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Predicted shock-layer emission signatures of the Japanese Hayabusa capsule during its reentry are presented for comparison with flight measurements made during an airborne observation mission using NASA's DC-8 Airborne Laboratory. For each altitude, lines of sight were extracted from flow field solutions computed using an inhouse high-fidelity CFD code, DPLR, at 11 points along the flight trajectory of the capsule. These lines of sight were used as inputs for the line-by-line radiation code NEQAIR, and emission spectra of the air plasma were computed in the wavelength range from 300 nm to 1600 nm, a range which covers all of the different experiments onboard the DC-8. In addition, the computed flow field solutions were post-processed with the material thermal response code FIAT, and the resulting surface temperatures of the heat shield were used to generate thermal emission spectra based on Planck radiation. Both spectra were summed and integrated over the flow field. The resulting emission at each trajectory point was propagated to the DC-8 position and transformed into incident irradiance. Comparisons with experimental data are shown.

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Dust Trails of 8P/Tuttle and the Unusual Outbursts of the Ursid Shower

Jenniskens¹,

Lyytinen²,

Lignie

et al. 2002

Icarus

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We calculate the position of dust trails from comet 8P/Tuttle, in an effort to explain unusual Ursid meteor shower outbursts that were seen when the comet was near aphelion. Comet 8P/Tuttle is a Halley-type comet in a 13.6-year orbit, passing just outside of Earth's orbit. We find that the meteoroids tend to be trapped in the 12:14 mean motion resonance with Jupiter, while the comet librates in a slightly shorter period orbit around the 13:15 resonance. It takes 6 centuries to decrease the perihelion of the meteoroid orbits enough to intersect Earth's orbit, during which time the meteoroids and comet separate in mean anomaly by 6 years, thus explaining the 6-year lag between the comet's return and Ursid outbursts. The resonances also prevent dispersion along the comet orbit and limit viewing to only one year in each return. We identified past dust trail encounters with dust trails from 1392 (Dec. 1945) and 1378 (Dec. 1986) and predicted another outburst on 2000 December 22 at around 7:29 and 8:35 UT, respectively, from dust trails dating to the 1405 and 1392 returns. This event was observed from California using video and photographic techniques. At the same time, five Global-MS-Net stations in Finland, Japan, and Belgium counted meteors using forward meteor scatter. The outburst peaked at 8:06 ± 07 UT, December 22, at zenith hourly rate ∼90 per hour, and the Ursid rates were above half peak intensity during 4.

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Radiation Modeling for the Reentry of the Stardust Sample Return Capsule

Winter

McDaniel

Chen

et al. 2008

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Airborne observations of an asteroid entry for high fidelity modeling

Jenniskens

Albers

Koop

et al. 2016

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A Large Scale OH Survey in Orion and Monoceros

Jenniskens¹,

Habing²,

Wouterloot³

et al. 1986

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P. Jenniskens

Radiation Modeling for the Reentry of the Hayabusa Sample Return Capsule

Dust Trails of 8P/Tuttle and the Unusual Outbursts of the Ursid Shower

Radiation Modeling for the Reentry of the Stardust Sample Return Capsule

Airborne observations of an asteroid entry for high fidelity modeling

A Large Scale OH Survey in Orion and Monoceros

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