7 results on '"RIESS, ADAM G."'
Search Results
2. The Mira Distance to M101 and a 4% Measurement of H 0.
- Author
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Huang, Caroline D., Yuan, Wenlong, Riess, Adam G., Hack, Warren, Whitelock, Patricia A., Zakamska, Nadia L., Casertano, Stefano, Macri, Lucas M., Marengo, Massimo, Menzies, John W., and Smith, Randall K.
- Subjects
LARGE magellanic cloud ,TYPE I supernovae ,ASYMPTOTIC giant branch stars ,STELLAR luminosity function ,DISTANCES ,RED giants ,LIGHT curves ,SPIRAL galaxies - Abstract
The giant spiral galaxy M101 is host to the nearest recent Type Ia supernova (SN 2011fe) and thus has been extensively monitored in the near-infrared to study the late-time light curve of the SN. Leveraging this existing baseline of observations, we derive the first Mira-based distance to M101 by discovering and classifying a sample of 211 Miras with periods ranging from 240–400 days in the SN field. Combined with new Hubble Space Telescope (HST) WFC3/IR channel observations, our data set totals 11 epochs of F110W (HST YJ) and 13 epochs of F160W (HST H) data spanning ∼2900 days. We adopt absolute calibrations of the Mira period–luminosity relation based on geometric distances to the Large Magellanic Cloud and the water megamaser host galaxy NGC 4258, and find μ
M101 = 29.10 ± 0.06 mag. This distance is in 1 σ agreement with most other recent Cepheid and tip of the red giant branch distance measurements to M101. Including the previous Mira SN Ia host, NGC 1559, and SN 2005df, we determine the fiducial SN Ia peak luminosity, M B 0 = − 19.27 ± 0.09 mag. With the Hubble diagram of supernovae Ia, we derive H0 = 72.37 ± 2.97 km s−1 Mpc−1 , a 4.1% measurement of H0 using Miras. We find excellent agreement with recent Cepheid distance ladder measurements of H0 and confirm previous indications that the local universe value of H0 is higher than the early universe value at ∼95% confidence. Currently, the Mira-based H0 measurement is still dominated by the statistical uncertainty in the SN Ia peak magnitude. [ABSTRACT FROM AUTHOR]- Published
- 2024
- Full Text
- View/download PDF
3. A Gaia Data Release 3 View on the Tip of the Red Giant Branch Luminosity.
- Author
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Li, Siyang, Casertano, Stefano, and Riess, Adam G.
- Subjects
RED giants ,DATA release ,LUMINOSITY ,PARALLAX ,HUBBLE constant ,PHOTOMETRY ,MILKY Way - Abstract
The tip of the red giant branch (TRGB) is a standard candle that can be used to help refine the determination of the Hubble constant. Gaia Data Release 3 (DR3) provides synthetic photometry constructed from low-resolution BP/RP spectra for Milky Way field stars that can be used to directly calibrate the luminosity of the TRGB in the Johnson–Cousins I band, where the TRGB is least sensitive to metallicity. We calibrate the TRGB luminosity using a two-dimensional maximum likelihood algorithm with field stars and Gaia synthetic photometry and parallaxes. For a high-contrast and low-contrast break (characterized by the values of the contrast parameter R or the magnitude of the break β), we find M
TRGB I = −4.02 and −3.92 mag respectively, or a midpoint of −3.970 − 0.024 + 0.042 (sys) ± 0.062 (stat) mag. This measurement improves upon the TRGB measurement from Li et al., as the higher precision photometry based on Gaia DR3 allows us to constrain two additional free parameters of the luminosity function. We also investigate the possibility of using Gaia DR3 synthetic photometry to calibrate the TRGB luminosity with ω Centauri, but find evidence of blending within the inner region for cluster member photometry that precludes accurate calibration with Gaia DR3 photometry. We instead provide an updated TRGB measurement of mTRGB I = 9.82 ± 0.04 mag in ω Centauri using ground-based photometry from the most recent version of the database described in Stetson et al., which gives MTRGB I = −3.97 ± 0.04 (stat) ± 0.10 (sys) mag when tied to the Gaia EDR3 parallax distance from the consensus of Vasiliev & Baumgardt, Soltis et al., and Maíz Apellániz. [ABSTRACT FROM AUTHOR]- Published
- 2023
- Full Text
- View/download PDF
4. A Comprehensive Measurement of the Local Value of the Hubble Constant with 1 km s â'1 Mpc â'1 Uncertainty from the Hubble Space Telescope and the SH0ES Team.
- Author
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Riess, Adam G., Yuan, Wenlong, Macri, Lucas M., Scolnic, Dan, Brout, Dillon, Casertano, Stefano, Jones, David O., Murakami, Yukei, Anand, Gagandeep S., Breuval, Louise, Brink, Thomas G., Filippenko, Alexei V., Hoffmann, Samantha, Jha, Saurabh W., D’arcy Kenworthy, W., Mackenty, John, Stahl, Benjamin E., and Zheng, WeiKang
- Published
- 2022
- Full Text
- View/download PDF
5. Measurements of the Hubble Constant with a Two-rung Distance Ladder: Two Out of Three Ain’t Bad.
- Author
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Kenworthy, W. D’Arcy, Riess, Adam G., Scolnic, Daniel, Yuan, Wenlong, Luis Bernal, José, Brout, Dillon, Casertano, Stefano, Jones, David O., Macri, Lucas, and Peterson, Erik R.
- Subjects
- *
HUBBLE constant , *LARGE magellanic cloud , *TYPE I supernovae , *LARGE scale structure (Astronomy) , *MILKY Way - Abstract
The three-rung distance ladder, which calibrates Type Ia supernovae (SNe Ia) through stellar distances linked to geometric measurements, provides the highest precision direct measurement of the Hubble constant. In light of the Hubble tension, it is important to test the individual components of the distance ladder. For this purpose, we report a measurement of the Hubble constant from 35 extragalactic Cepheid hosts measured by the SH0ES team, using their distances and redshifts at cz ≤ 3300 km sâ'1, instead of any more distant SNe Ia, to measure the Hubble flow. The Cepheid distances are calibrated geometrically in the Milky Way, NGC 4258, and the Large Magellanic Cloud. Peculiar velocities are a significant source of systematic uncertainty at z ⼠0.01, and we present a formalism for both mitigating and quantifying their effects, making use of external reconstructions of the density and velocity fields in the nearby universe. We identify a significant source of uncertainty originating from different assumptions about the selection criteria of this sample, whether distance or redshift limited, as it was assembled over three decades. Modeling these assumptions yields central values ranging from H 0 = 71.7 to 76.4 km sâ'1 Mpcâ'1. Combining the four best-fitting selection models yields H 0 = 72.9 â' 2.2 + 2.4 as a fiducial result, at 2.4 Ď tension with Planck. While SNe Ia are essential for a precise measurement of H 0, unknown systematics in these supernovae are unlikely to be the source of the Hubble tension. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
6. H -band Light Curves of Milky Way Cepheids via Difference Imaging.
- Author
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Konchady, Tarini, Oelkers, Ryan J., Jones, David O., Yuan, Wenlong, Macri, Lucas M., Peterson, Erik R., and Riess, Adam G.
- Published
- 2022
- Full Text
- View/download PDF
7. The Mira Distance to M101 and a 4% Measurement of H 0.
- Author
-
Huang, Caroline D., Yuan, Wenlong, Riess, Adam G., Hack, Warren, Whitelock, Patricia A., Zakamska, Nadia L., Casertano, Stefano, Macri, Lucas M., Marengo, Massimo, Menzies, John W., and Smith, Randall K.
- Subjects
- *
LARGE magellanic cloud , *TYPE I supernovae , *ASYMPTOTIC giant branch stars , *STELLAR luminosity function , *DISTANCES , *RED giants , *LIGHT curves , *SPIRAL galaxies - Abstract
The giant spiral galaxy M101 is host to the nearest recent Type Ia supernova (SN 2011fe) and thus has been extensively monitored in the near-infrared to study the late-time light curve of the SN. Leveraging this existing baseline of observations, we derive the first Mira-based distance to M101 by discovering and classifying a sample of 211 Miras with periods ranging from 240–400 days in the SN field. Combined with new Hubble Space Telescope (HST) WFC3/IR channel observations, our data set totals 11 epochs of F110W (HST YJ) and 13 epochs of F160W (HST H) data spanning ∼2900 days. We adopt absolute calibrations of the Mira period–luminosity relation based on geometric distances to the Large Magellanic Cloud and the water megamaser host galaxy NGC 4258, and find μ M101 = 29.10 ± 0.06 mag. This distance is in 1 σ agreement with most other recent Cepheid and tip of the red giant branch distance measurements to M101. Including the previous Mira SN Ia host, NGC 1559, and SN 2005df, we determine the fiducial SN Ia peak luminosity, M B 0 = − 19.27 ± 0.09 mag. With the Hubble diagram of supernovae Ia, we derive H 0 = 72.37 ± 2.97 km s−1 Mpc−1, a 4.1% measurement of H 0 using Miras. We find excellent agreement with recent Cepheid distance ladder measurements of H 0 and confirm previous indications that the local universe value of H 0 is higher than the early universe value at ∼95% confidence. Currently, the Mira-based H 0 measurement is still dominated by the statistical uncertainty in the SN Ia peak magnitude. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
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