Your search keyword '"Hornsby, Amber"' showing total 14 results

1. Development of the low frequency telescope focal plane detector modules for LiteBIRD

Author

Westbrook, Benjamin, Raum, Christopher, Beckman, Shawn, Lee, Adrian T., Farias, Nicole, Bogdan, Andrew, Hornsby, Amber, Suzuki, Aritoki, Rotermund, Kaja, Elleflot, Tucker, Austermann, Jason E., Beall, James A., Duff, Shannon M., Hubmayr, Johannes, Vissers, Michael R., Link, Michael J., Jaehnig, Greg, Halverson, Nils, Ghigna, Tomasso, Hazumi, Masashi, Stever, Samantha, Minami, Yuto, Thompson, Keith L., Russell, Megan, Arnold, Kam, and Silva-Feaver, Maximiliano

Subjects

Cosmology and Nongalactic Astrophysics (astro-ph.CO), FOS: Physical sciences, Astrophysics - Instrumentation and Methods for Astrophysics, Instrumentation and Methods for Astrophysics (astro-ph.IM), Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

LiteBIRD is a JAXA-led strategic large-class satellite mission designed to measure the polarization of the cosmic microwave background and Galactic foregrounds from 34 to 448 GHz across the entire sky from L2 in the late 2020s. The scientific payload includes three telescopes which are called the low-, mid-, and high-frequency telescopes each with their own receiver that covers a portion of the mission's frequency range. The low frequency telescope will map synchrotron radiation from the Galactic foreground and the cosmic microwave background. We discuss the design, fabrication, and characterization of the low-frequency focal plane modules for low-frequency telescope, which has a total bandwidth ranging from 34 to 161 GHz. There will be a total of 4 different pixel types with 8 overlapping bands to cover the full frequency range. These modules are housed in a single low-frequency focal plane unit which provides thermal isolation, mechanical support, and radiative baffling for the detectors. The module design implements multi-chroic lenslet-coupled sinuous antenna arrays coupled to transition edge sensor bolometers read out with frequency-domain mulitplexing. While this technology has strong heritage in ground-based cosmic microwave background experiments, the broad frequency coverage, low optical loading conditions, and the high cosmic ray background of the space environment require further development of this technology to be suitable for LiteBIRD. In these proceedings, we discuss the optical and bolometeric characterization of a triplexing prototype pixel with bands centered on 78, 100, and 140 GHz., SPIE Astronomical Telescope + Instrumentation (AS22)

Published

2022

2. The Mexico UK Sub-mm Camera for Astronomy (MUSCAT) on-sky commissioning: focal plane performance.

Author

Tapia, Marcial, primary, Ade, Peter A. R., additional, Aguilar Pérez, Emmaly, additional, Barry, Peter S., additional, Brien, Thomas L. R., additional, Castillo-Domínguez, Edgar, additional, Dodd, Chris, additional, Dunscombe, Chris J., additional, Eales, Stephen A., additional, Ferrusca, Daniel, additional, Goméz-Rivera, Víctor, additional, Hargrave, Peter C., additional, Hernández-Rebollar, José Luis, additional, Hornsby, Amber, additional, House, Julian S., additional, Hughes, David H., additional, Jáuregui-García, José Miguel, additional, Mauskopf, Philip D., additional, Murias, Dulce, additional, Papageorgiou, Andreas, additional, Pascale, Enzo, additional, Peretto, Nicolas, additional, Perez-Fajardo, Abel, additional, Rowe, Samuel, additional, Sánchez-Argüelles, David, additional, Smith, Matthew W. L., additional, Souccar, Kamal, additional, Sudiwala, Rashmi V., additional, Torres Campos, Ana, additional, Tucker, Carole E., additional, Veláquez de la Rosa Becerra, Miguel, additional, Ventura-González, Salvador, additional, Walker, Ian K., additional, and Doyle, Simon M., additional

Published

2022

3. The Mexico UK Sub-mm Camera for Astronomy (MUSCAT) on-sky commissioning: performance of the cryogenic systems

Author

Brien, Thomas L. R., primary, Doyle, Simon M., additional, Hughes, David H., additional, Ade, Peter A. R., additional, Barry, Peter S., additional, Castillo-Domínguez, Edgar, additional, Dodd, Chris, additional, Dunscombe, Chris J., additional, Eales, Stephen A., additional, Ferrusca, Daniel, additional, Goméz-Rivera, Víctor, additional, Hargrave, Peter C., additional, Rebollar, José Luis, additional, Hornsby, Amber L., additional, House, Julian S., additional, Jáuregui-García, José Miguel, additional, Mauskopf, Philip D., additional, Murias, Dulce, additional, Papageorgiou, Andreas, additional, Pascale, Enzo, additional, Peretto, Nicolas, additional, Perez-Fajardo, Abel, additional, Rowe, Sam, additional, Sánchez-Argüelles, David, additional, Smith, Matthew W. L., additional, Souccar, Kamal, additional, Sudiwala, Rashmi V., additional, Tapia, Marcial, additional, Torres Campos, Ana, additional, Tucker, Carole E., additional, Veláquez de la Rosa Becerra, Miguel, additional, Ventura-González, Salvador, additional, and Walker, Ian K., additional

Published

2022

4. Pre-deployment verification and predicted mapping speed of MUSCAT

Author

Brien, Thomas L. R., primary, Ade, Peter, additional, Barry, Peter, additional, Castillo-Domínguez, Edgar, additional, Ferrusca, Daniel, additional, Gómez, Victor, additional, Hargrave, Peter, additional, Hernández Rebollar, José Luis, additional, Hornsby, Amber, additional, Hughes, David, additional, Jauregui Garcia, Jose Miguel, additional, Mauskopf, Philip, additional, Murias, Dulce, additional, Papageorgiou, Andreas, additional, Pascale, Enzo, additional, Pérez, Abel, additional, Rowe, Sam, additional, Smith, Matthew W., additional, Tapia, Marcial, additional, Tucker, Carole, additional, Velázquez, Miguel, additional, Ventura, Salvador, additional, and Doyle, Simon, additional

Published

2020

5. MUSCAT focal plane verification

Author

Tapia, Marcial, primary, Ade, Peter, additional, Barry, Peter, additional, Brien, Tom, additional, Castillo-Domínguez, Edgar, additional, Daniel, Ferrusca, additional, Gómez-Rivera, Victor, additional, Hargrave, Peter, additional, Hérnandez-Rebollar, José Luis, additional, Hornsby, Amber, additional, Hughes, David Handel, additional, Jáuregui-García, José Miguel, additional, Mauskopf, Philip, additional, Murias, Dulce, additional, Papageorgiou, Andreas, additional, Pascale, Enzo, additional, Pérez, Abel, additional, Rowe, Sam, additional, Tucker, Carole, additional, Velázquez, Miguel, additional, Ventura, Salvador, additional, and Doyle, Simon, additional

Published

2020

6. Design and characterization of the MUSCAT detectors

Author

Gómez-Rivera, Víctor, primary, Ade, Peter, additional, Barry, Peter, additional, Brien, Tom, additional, Castillo-Dominguez, Edgar, additional, Ferrusca, Daniel, additional, Hargrave, Peter, additional, Hernández-Rebollar, Jose Luis, additional, Hornsby, Amber, additional, Hughes, David, additional, Jáuregui, Jose Miguel, additional, Mauskopf, Philip, additional, Murias, Dulce, additional, Papageorgiou, Andreas, additional, Pascale, Enzo, additional, Perez, Abel, additional, Rodríguez, Iván, additional, Rowe, Sam, additional, Tapia, Marcial, additional, Tucker, Carole, additional, Velázquez, Miguel, additional, Ventura, Salvador, additional, and Doyle, Simon, additional

Published

2020

7. On-chip narrow-band filters for antenna-coupled LEKIDs (Conference Presentation)

Author

Hornsby, Amber L., primary, Barry, Peter S., additional, Doyle, Simon M., additional, Kofman, Anna M., additional, Moseley, Paul, additional, Nadolski, Andrew W., additional, Rowe, Sam, additional, Shirokoff, Erik, additional, Tang, Qing Yang, additional, and Vieira, Joaquin D., additional

Published

2018

8. MUSCAT: the Mexico-UK Sub-Millimetre Camera for AsTronomy

Author

Brien, Tom, primary, Doyle, Simon M., primary, Castillo-Domínguez, Edgar, primary, Ferrusca, Daniel, primary, Hughes, David H., primary, Pascale, Enzo, primary, Rowe, Sam, primary, Tucker, Carole, primary, Ade, Peter A. R., primary, Hornsby, Amber L., primary, Barry, Peter, primary, Gascard, Thomas, primary, Gomez, Victor, primary, Hargrave, Peter, primary, Parrianen, Josie, primary, Perez, Abel, primary, and Ventura González, Salvador, primary

Published

2018

9. Electromagnetic modelling of a space-borne far-infrared interferometer

Author

Donohoe, Anthony, additional, O'Sullivan, Créidhe, additional, Murphy, J. Anthony, additional, Bracken, Colm P., additional, Savini, Giorgio, additional, Pascale, Enzo, additional, Ade, Peter, additional, Sudiwala, Rashmi, additional, and Hornsby, Amber, additional

Published

2016

10. The Mexico UK Sub-mm Camera for Astronomy (MUSCAT) on-sky commissioning: performance of the cryogenic systems

Author

Zmuidzinas, Jonas, Gao, Jian-Rong, Brien, Thomas L. R., Doyle, Simon M., Hughes, David H., Ade, Peter A. R., Barry, Peter S., Castillo-Domínguez, Edgar, Dodd, Chris, Dunscombe, Chris J., Eales, Stephen A., Ferrusca, Daniel, Goméz-Rivera, Víctor, Hargrave, Peter C., Rebollar, José Luis, Hornsby, Amber L., House, Julian S., Jáuregui-García, José Miguel, Mauskopf, Philip D., Murias, Dulce, Papageorgiou, Andreas, Pascale, Enzo, Peretto, Nicolas, Perez-Fajardo, Abel, Rowe, Sam, Sánchez-Argüelles, David, Smith, Matthew W. L., Souccar, Kamal, Sudiwala, Rashmi V., Tapia, Marcial, Torres Campos, Ana, Tucker, Carole E., Veláquez de la Rosa Becerra, Miguel, Ventura-González, Salvador, Walker, Ian K., Zmuidzinas, Jonas, Gao, Jian-Rong, Brien, Thomas L. R., Doyle, Simon M., Hughes, David H., Ade, Peter A. R., Barry, Peter S., Castillo-Domínguez, Edgar, Dodd, Chris, Dunscombe, Chris J., Eales, Stephen A., Ferrusca, Daniel, Goméz-Rivera, Víctor, Hargrave, Peter C., Rebollar, José Luis, Hornsby, Amber L., House, Julian S., Jáuregui-García, José Miguel, Mauskopf, Philip D., Murias, Dulce, Papageorgiou, Andreas, Pascale, Enzo, Peretto, Nicolas, Perez-Fajardo, Abel, Rowe, Sam, Sánchez-Argüelles, David, Smith, Matthew W. L., Souccar, Kamal, Sudiwala, Rashmi V., Tapia, Marcial, Torres Campos, Ana, Tucker, Carole E., Veláquez de la Rosa Becerra, Miguel, Ventura-González, Salvador, and Walker, Ian K.

Abstract

MUSCAT is a new 1.1 mm band receiver which was installed on the 50 m Large Millimeter Telescope atop Volc´an Sierra Negra in Puebla, Mexico during the final quarter of 2021 and commissioned on sky throughout 2022. MUSCAT uses a novel cooling chain consisting of a commercial pulse tube cooler, two thermal stages of passively-switched continuous sorption coolers, and a final miniature dilution refrigerator. Through this system MUSCAT achieves a continuous temperature of 120 mK at the focal plane and has shown continuous operation at this temperature for greater than 100 days during readiness testing. Through minimising the amount of helium-3 required, the design on MUSCAT’s cryogenic systems produced a reliable, cost-effective cooling platform. Here we present the cryogenic design and performance of MUSCAT on-sky and compare this to that achieved during deployment-readiness testing at Cardiff (UK). We consider both cooldown time and achieved base temperature. We look at the impact on operation of relocating a pulse-tube cooled instrument from a development lab running on a 50 Hz mains electricity supply to a site running at 60 Hz. Finally, we describe the process of preparing the MUSCAT instrument for shipping and assess the success of this process in terms of remedial work required upon arrival.

11. Design and characterization of the MUSCAT detectors

Author

Gómez-Rivera, Víctor, Ade, Peter, Barry, Peter, Brien, Thomas, Castillo-Domínguez, Edgar, Ferrusca, Daniel, Hargrave, Peter, Hernández Rebollar, Jose Luis, Hornsby, Amber, Hughes, David, Murias, Dolce, Jáuregui-García, José Miguel, Mauskopf, Philip, Pérez, Abel, Papageorgiou, Andreas, Pascale, Enzo, Rowe, Samuel, Rodríguez, Ivan, Tucker, Carole, Tapia, Marcial, Miguel, Velázquez, Ventura, Salvador, Doyle, Simon, Gómez-Rivera, Víctor, Ade, Peter, Barry, Peter, Brien, Thomas, Castillo-Domínguez, Edgar, Ferrusca, Daniel, Hargrave, Peter, Hernández Rebollar, Jose Luis, Hornsby, Amber, Hughes, David, Murias, Dolce, Jáuregui-García, José Miguel, Mauskopf, Philip, Pérez, Abel, Papageorgiou, Andreas, Pascale, Enzo, Rowe, Samuel, Rodríguez, Ivan, Tucker, Carole, Tapia, Marcial, Miguel, Velázquez, Ventura, Salvador, and Doyle, Simon

Abstract

MUSCAT is a second-generation continuum camera for the Large Millimeter Telescope (LMT) 'Alfonso Serrano', to observe at the 1.1 mm atmospheric window. The camera has 1500 background-limited, horn-coupled lumped- element kinetic inductance detectors (LEKIDs) split across six arrays operating at 130-mK. The detector design for MUSCAT is based on a large-volume, double-meander geometry used as the inductive and two-polarization absorbing section of the LEKID resonator. In this paper we present the optical coupling of the meander to a choked waveguide output, the microwave design of the LEKID architecture, the device fabrication process and results demonstrating the detector sensitivity under a range of optical loads. Also presented are the performance of an aluminum absorbing layer used to minimize the optical cross-talk between detectors.

12. Pre-deployment verification and predicted mapping speed of MUSCAT

Author

Brien, Thomas, Ade, Peter, Barry, Peter, Castillo-Domínguez, Edgar, Ferrusca, Daniel, Gómez-Rivera, Víctor, Hargrave, Peter, Hernández Rebollar, Jose Luis, Hornsby, Amber, Hughes, David, Jáuregui-García, José Miguel, Mauskopf, Philip, Murias, Dolce, Papageorgiou, Andreas, Pascale, Enzo, Pérez, Abel, Rowe, Samuel, Smith, Matthew, Tapia, Marcial, Tucker, Carole, Miguel, Velázquez, Ventura, Salvador, Doyle, Simon, Brien, Thomas, Ade, Peter, Barry, Peter, Castillo-Domínguez, Edgar, Ferrusca, Daniel, Gómez-Rivera, Víctor, Hargrave, Peter, Hernández Rebollar, Jose Luis, Hornsby, Amber, Hughes, David, Jáuregui-García, José Miguel, Mauskopf, Philip, Murias, Dolce, Papageorgiou, Andreas, Pascale, Enzo, Pérez, Abel, Rowe, Samuel, Smith, Matthew, Tapia, Marcial, Tucker, Carole, Miguel, Velázquez, Ventura, Salvador, and Doyle, Simon

Abstract

The Mexico-UK Submillimetre Camera for AsTronomy (MUSCAT) is a 1.1 mm receiver consisting of 1,500 lumped-element kinetic inductance detectors (LEKIDs) for the Large Millimeter Telescope (LMT; Volcán Sierra Negra in Puebla, México). MUSCAT utilises the maximum field of view of the LMT's upgraded 50-metre primary mirror and is the first México-UK collaboration to deploy a millimetre/sub-mm receiver on the Large Millimeter Telescope. Using a simplistic simulator, we estimate a predicted mapping speed for MUSCAT by combining the measured performance of MUSCAT with the observed sky conditions at the LMT. We compare this to a previously calculated bolometric-model mapping speed and find that our mapping speed is in good agreement when this is scaled by a previously reported empirical factor. Through this simulation we show that signal contamination due to sky fluctuations can be effectively removed through the use of principle component analysis. We also give an overview

13. MUSCAT focal plane verification

Author

Tapia, Marcial, Ade, Peter, Barry, Peter, Brien, Thomas, Castillo-Domínguez, Edgar, Ferrusca, Daniel, Gómez-Rivera, Víctor, Hargrave, Peter, Hernández Rebollar, Jose Luis, Hornsby, Amber, Murias, Dolce, Hughes, David, Jáuregui-García, José Miguel, Mauskopf, Philip, Pérez, Abel, Papageorgiou, Andreas, Pascale, Enzo, Rowe, Samuel, Tucker, Carole, Ventura, Salvador, Miguel, Velázquez, Doyle, Simon, Tapia, Marcial, Ade, Peter, Barry, Peter, Brien, Thomas, Castillo-Domínguez, Edgar, Ferrusca, Daniel, Gómez-Rivera, Víctor, Hargrave, Peter, Hernández Rebollar, Jose Luis, Hornsby, Amber, Murias, Dolce, Hughes, David, Jáuregui-García, José Miguel, Mauskopf, Philip, Pérez, Abel, Papageorgiou, Andreas, Pascale, Enzo, Rowe, Samuel, Tucker, Carole, Ventura, Salvador, Miguel, Velázquez, and Doyle, Simon

Abstract

The Mexico-UK Submillimetre Camera for Astronomy (MUSCAT) is the second-generation large-format continuum camera operating in the 1.1 mm band to be installed on the 50-m diameter Large Millimeter Telescope (LMT) in Mexico. The focal plane of the instrument is made up of 1458 horn coupled lumped-element kinetic inductance detectors (LEKID) divided equally into six channels deposited on three silicon wafers. Here we present the preliminary results of the complete characterisation in the laboratory of the MUSCAT focal plane. Through the instrument's readout system, we perform frequency sweeps of the array to identify the resonance frequencies, and continuous timestream acquisitions to measure and characterise the intrinsic noise and 1/f knee of the detectors. Subsequently, with a re-imaging lens and a blackbody point source, the beams of every detector are mapped, obtaining a mean FWHM size of ~3.27 mm, close to the expected 3.1 mm. Then, by varying the intensity of a beam filling blackbody source, we measure the responsivity and noise power spectral density (PSD) for each detector under an optical load of 300 K, obtaining the noise equivalent power (NEP), with which we verify that the majority of the detectors are photon noise limited. Finally, using a Fourier Transform Spectrometer (FTS), we measure the spectral response of the instrument, which indicate a bandwidth of 1.0-1.2 mm centred on 1.1 mm, as expected.

14. MUSCAT: The Mexico-UK Sub-Millimetre Camera for AsTronomy

Author

Zmuidzinas, Jonas, Gao, Jian_Rong, Brien, Thomas, Ade, Peter, Barry, Peter, Castillo, Edgar, Ferrusca, Daniel, Gascard, Thomas, Gomez, Victor, Hargrave, Peter, Hornsby, Amber, Hughes, David, Pascale, Enzo, Parrianen, Josie, Perez, Abel, Rowe, Samuel, Tucker, Carole, Ventura González, Salvador, Doyle, Simon, Zmuidzinas, Jonas, Gao, Jian_Rong, Brien, Thomas, Ade, Peter, Barry, Peter, Castillo, Edgar, Ferrusca, Daniel, Gascard, Thomas, Gomez, Victor, Hargrave, Peter, Hornsby, Amber, Hughes, David, Pascale, Enzo, Parrianen, Josie, Perez, Abel, Rowe, Samuel, Tucker, Carole, Ventura González, Salvador, and Doyle, Simon

Abstract

The Mexico-UK Sub-millimetre Camera for AsTronomy (MUSCAT) is a large-format, millimetre-wave camera consisting of 1,500 background-limited lumped-element kinetic inductance detectors (LEKIDs) scheduled for deployment on the Large Millimeter Telescope (Volcán Sierra Negra, Mexico) in 2018. MUSCAT is designed for observing at 1.1 mm and will utilise the full 40 field of view of the LMTs upgraded 50-m primary mirror. In its primary role, MUSCAT is designed for high-resolution follow-up surveys of both galactic and extra-galactic sub-mm sources identified by Herschel. MUSCAT is also designed to be a technology demonstrator will provide the first on-sky demonstrations of novel design concepts such as horn-coupled LEKID arrays and closed continuous cycle miniature dilution refrigeration. Here we describe some of the key design elements of the MUSCAT instrument such as the novel use of continuous sorption refrigerators and a miniature dilutor for continuous 100-mK cooling of the focal plane, broadband optical coupling to Aluminium LEKID arrays using waveguide chokes and anti-reflection coating materials as well as with the general mechanical and optical design of MUSCAT. We will explain how MUSCAT is designed to be simple to upgrade and the possibilities for changing the focal plane unit that allows MUSCAT to act as a demonstrator for other novel technologies such as multi-chroic polarisation sensitive pixels and on-chip spectrometry in the future. Finally, we will report on the current status of MUSCAT's commissioning.