_version_ 1866911659033886720
author Debes, John
Sankrit, Ravi
Fischer, Travis
Frazer, Elaine
Hirschauer, Alec
Rowlands, Kate
Burger, Matthew
Swaters, Robert
Jedrzejewski, Robert
Gomez, Sierra
Santos, Leonardo Dos
Hernandez, Svea
Miller, Lauren
Payne, Anna
Rafelski, Marc
Wevers, Thomas
Anderson, Sara
Bair, Tom
Bello, Kathryn
Carlberg, Joleen
Charlow, Brian
Cortese, Andrew
Dencheva, Nadia
Ellis, Tracy
Falk, Ben
Fleming, Scott
Forshay, Peter
Gilani, Syed
Hall, Patty
Kimball, Tim
Kelley, Talya
Kidwell, Richard
Kotler, Jenn
Kovacs, Aiden
James, Bethan
Rahmani, Christopher
Rodriguez, David
Roman-Duval, Julia
Soderblom, David
Sherbert, Lisa
Welty, Dan
Wolfe, David
author_facet Debes, John
Sankrit, Ravi
Fischer, Travis
Frazer, Elaine
Hirschauer, Alec
Rowlands, Kate
Burger, Matthew
Swaters, Robert
Jedrzejewski, Robert
Gomez, Sierra
Santos, Leonardo Dos
Hernandez, Svea
Miller, Lauren
Payne, Anna
Rafelski, Marc
Wevers, Thomas
Anderson, Sara
Bair, Tom
Bello, Kathryn
Carlberg, Joleen
Charlow, Brian
Cortese, Andrew
Dencheva, Nadia
Ellis, Tracy
Falk, Ben
Fleming, Scott
Forshay, Peter
Gilani, Syed
Hall, Patty
Kimball, Tim
Kelley, Talya
Kidwell, Richard
Kotler, Jenn
Kovacs, Aiden
James, Bethan
Rahmani, Christopher
Rodriguez, David
Roman-Duval, Julia
Soderblom, David
Sherbert, Lisa
Welty, Dan
Wolfe, David
contents The Hubble Advanced Spectral Products (HASP) program is designed to robustly coadd Cosmic Origins Spectrograph (COS) and Space Telescope Imaging Spectrograph (STIS) spectra within the Mikulski Archive for Space Telescopes (MAST) in an automated fashion such that coadds are available for new data or archival data with updated calibrations. For each target within a visit or program, HASP employs a meticulous multi-stage filtering process to ensure data quality and creates coadded products for all central wavelengths (CENWAVEs) within specific gratings, as well as combined products using different gratings and instruments. The project also emphasizes making the code accessible to the user community for custom coaddition. As calibrations improve and new data are added to the archive, HASP products are re-created automatically so that they represent the best reduction of a given visit or program. Automated coadditions like those achieved by HASP can significantly enhance the combination of different CENWAVES, increase signal-to-noise ratios, and increase wavelength coverage. These properties make HASP a vital resource for astronomers using archival spectroscopic data from HST.
format Preprint
id arxiv_https___arxiv_org_abs_2605_06836
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle The Hubble Advanced Spectral Product (HASP) Program
Debes, John
Sankrit, Ravi
Fischer, Travis
Frazer, Elaine
Hirschauer, Alec
Rowlands, Kate
Burger, Matthew
Swaters, Robert
Jedrzejewski, Robert
Gomez, Sierra
Santos, Leonardo Dos
Hernandez, Svea
Miller, Lauren
Payne, Anna
Rafelski, Marc
Wevers, Thomas
Anderson, Sara
Bair, Tom
Bello, Kathryn
Carlberg, Joleen
Charlow, Brian
Cortese, Andrew
Dencheva, Nadia
Ellis, Tracy
Falk, Ben
Fleming, Scott
Forshay, Peter
Gilani, Syed
Hall, Patty
Kimball, Tim
Kelley, Talya
Kidwell, Richard
Kotler, Jenn
Kovacs, Aiden
James, Bethan
Rahmani, Christopher
Rodriguez, David
Roman-Duval, Julia
Soderblom, David
Sherbert, Lisa
Welty, Dan
Wolfe, David
Instrumentation and Methods for Astrophysics
The Hubble Advanced Spectral Products (HASP) program is designed to robustly coadd Cosmic Origins Spectrograph (COS) and Space Telescope Imaging Spectrograph (STIS) spectra within the Mikulski Archive for Space Telescopes (MAST) in an automated fashion such that coadds are available for new data or archival data with updated calibrations. For each target within a visit or program, HASP employs a meticulous multi-stage filtering process to ensure data quality and creates coadded products for all central wavelengths (CENWAVEs) within specific gratings, as well as combined products using different gratings and instruments. The project also emphasizes making the code accessible to the user community for custom coaddition. As calibrations improve and new data are added to the archive, HASP products are re-created automatically so that they represent the best reduction of a given visit or program. Automated coadditions like those achieved by HASP can significantly enhance the combination of different CENWAVES, increase signal-to-noise ratios, and increase wavelength coverage. These properties make HASP a vital resource for astronomers using archival spectroscopic data from HST.
title The Hubble Advanced Spectral Product (HASP) Program
topic Instrumentation and Methods for Astrophysics
url https://arxiv.org/abs/2605.06836