Connor S. Pickett scite author profile

Connor S. Pickett

3Publications

9Citation Statements Received

87Citation Statements Given

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Embry–Riddle Aeronautical University

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Changes in the Na D₁ Absorption Components of η Carinae Provide Clues on the Location of the Dissipating Central Occulter

Pickett

Richardson

Gull

et al. 2022

ApJ

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The Na D absorption doublet in the spectrum of η Carinae is complex, with multiple absorption features associated with the Great Eruption (1840s), the Lesser Eruption (1890s), and the interstellar clouds. The velocity profile is further complicated by the P Cygni profile originating in the system’s stellar winds and blending with the He i λ5876 profile. The Na D profile contains a multitude of absorption components, including those at velocities of −145 km s−1, −168 km s−1, and +87 km s−1, which we concentrate on in this analysis. Ground-based spectra recorded from 2008 to 2021 show significant variability of the −145 km s−1 absorption throughout long-term observations. In the high-ionization phases of η Carinae prior to the 2020 periastron passage, this feature disappeared completely but briefly reappeared across the 2020 periastron, along with a second absorption at −168 km s−1. Over the past few decades, η Carinae has been gradually brightening, which is shown to be caused by a dissipating occulter. The decreasing absorption of the −145 km s−1 component, coupled with similar trends seen in absorptions of ultraviolet resonant lines, indicate that this central occulter was possibly a large clump associated with the Little Homunculus or another clump between the Little Homunculus and the star. We also report on a foreground absorption component at +87 km s−1. Comparison of Na D absorption in the spectra of nearby systems demonstrates that this redshifted component likely originates in an extended foreground structure consistent with a previous ultraviolet spectral survey in the Carina Nebula.

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The orbital kinematics of η Carinae over three periastra with a possible detection of the elusive secondary’s motion

Strawn

Richardson

Moffat

et al. 2023

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The binary η Carinae is the closest example of a very massive star, which may have formed through a merger during its Great Eruption in the mid-nineteenth century. We aimed to confirm and improve the kinematics using a spectroscopic data set taken with the CTIO 1.5 m telescope over the time period of 2008–2020, covering three periastron passages of the highly eccentric orbit. We measure line variability of Hα and Hβ, where the radial velocity and orbital kinematics of the primary star were measured from the Hβ emission line using a bisector method. At phases away from periastron, we observed the He ii 4686 emission moving opposite the primary star, consistent with a possible Wolf-Rayet companion, although with a seemingly narrow emission line. This could represent the first detection of emission from the companion.

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Changes in the Na D$_1$ Absorption Components of $η$ Carinae Provide Clues on the Location of the Dissipating Central Occulter

Pickett¹,

Richardson²,

Gull³

et al. 2022

Preprint

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Connor S. Pickett

Changes in the Na D₁ Absorption Components of η Carinae Provide Clues on the Location of the Dissipating Central Occulter

The orbital kinematics of η Carinae over three periastra with a possible detection of the elusive secondary’s motion

Changes in the Na D$_1$ Absorption Components of $η$ Carinae Provide Clues on the Location of the Dissipating Central Occulter

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Connor S. Pickett

Changes in the Na D1 Absorption Components of η Carinae Provide Clues on the Location of the Dissipating Central Occulter

The orbital kinematics of η Carinae over three periastra with a possible detection of the elusive secondary’s motion

Changes in the Na D$_1$ Absorption Components of $η$ Carinae Provide Clues on the Location of the Dissipating Central Occulter

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Changes in the Na D₁ Absorption Components of η Carinae Provide Clues on the Location of the Dissipating Central Occulter