Delivery, installation, on-sky verification of the Hobby Eberly Telescope wide field corrector

Lee, Hanshin, Hill, Gary J., Good, John M., Vattiat, Brian L., Shetrone, Matthew, Kriel, Herman, Martin, Jerry, Schroeder, Emily, Oh, Chang Jin, Frater, Eric, Smith, Bryan, Burge, James H.

08 August 2016

The Hobby-Eberly Telescope (HET)(+), located in West Texas at the McDonald Observatory, operates with a fixed segmented primary (M1) and has a tracker, which moves the prime-focus corrector and instrument package to track the sidereal and non-sidereal motions of objects. We have completed a major multi-year upgrade of the HET that has substantially increased the pupil size to 10 meters and the field of view to 22 arcminutes by deploying the new Wide Field Corrector (WFC), new tracker system, and new Prime Focus Instrument Package (PFIP). The focus of this paper is on the delivery, installation, and on-sky verification of the WFC. We summarize the technical challenges encountered and resolutions to overcome such challenges during the construction of the system. We then detail the transportation from Tucson to the HET, on-site ground verification test results, post-installation static alignment among the WFC, PFIP, and M1, and on-sky verification of alignment and image quality via deploying multiple wavefront sensors across 22 arcminutes field of view. The new wide field HET will feed the revolutionary new integral field spectrograph called VIRUS, in support of the Hobby-Eberly Telescope Dark Energy Experiment (HETDEX), a new low resolution spectrograph (LRS2), an upgraded high resolution spectrograph (HRS2), and later the Habitable Zone Planet Finder (HPF).

Wide Field Corrector

Hobby Eberly Telescope

Delivery

Installation

Onsky verification

Exploring the dynamics and dark halos of elliptical galaxies at large radii

Forestell, Amy Dove

23 October 2009

Dark matter is now accepted as an integral part of our universe, and galaxy dynamics have long provided the most convincing observational evidence for dark matter. Spiral galaxies have traditionally been used for these studies because of their more simple kinematics, however elliptical galaxies need to be understood as well. In this dissertation I present deep long-slit spectroscopy from the University of Texas’ Hobby-Eberly Telescope for a sample of elliptical galaxies. For a subsample of galaxies I fit axisymmetric orbit-superposition models with a range of dark halo density profiles. I find that all three galaxies modeled require a significant dark halo to explain their motions. However, the shape of the dark halo is not the expected NFW profile, but rather a profile with a flat central slope. I also discuss the galaxy masses, anisotropies, and stellar mass-to-light ratios. / text

Dark matter

Elliptical galaxies

Deep long-slit spectroscopy

Dark halos

Hobby-Eberly telescope

Axisymmetric orbit-superposition models

Galaxy masses

Anisotropies

Stellar mass-to-light ratios

Using the FRDPARRC design methodology to drive innovation in the HETDEX PFIP support adjustable strut assembly

Molina, Homar

16 February 2011

This thesis provides background information on the Hobby-Eberly Telescope (HET), HET Dark Energy Experiment (HETDEX), Gough-Stewart platforms (GSP), the Prime Focus Instrument Package (PFIP) support structure, and the design methodology used to design said support structure. Each component is analyzed from the point of view of Professor Alex Slocum’s FRDPARRC design methodology. Each aspect of the design is shown to have been derived by following the steps of Slocum’s design method. Material selection, manufacturing techniques, and integration of off-the-shelf components into the support system are also discussed in reference to FRDPARRC. The assembly procedure for the PFIP structure is outlined. Finally, using specific examples from the detailed design, the FRDPARRC method itself is analyzed and its ability to drive innovation in design is evaluated. / text

HETDEX

Manufacturing

PFIP support

Stewart platform

McDonald Observatory

Hobby-Eberly telescope

HET Dark Energy Experiment

Gough-Stewart platforms

Prime Focus Instrument Package

PFIP

FRDPARRC

Strut-end subassembly

Design methodology