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1. Understanding Sun-as-a-star variability of solar Balmer lines

Author

Criscuoli, Serena, Marchenko, Sergey, DeLand, Matthew, Choudhary, Debi, and Kopp, Greg

Subjects
Astrophysics - Solar and Stellar Astrophysics
Abstract

Precise, high-cadence, long-term records of stellar spectral variability at different temporal scales lead to better understanding of a wide variety of phenomena including stellar atmospheres and dynamos, convective motions, and rotational periods. Here, we investigate the variability of solar Balmer lines (H-$\alpha$, -$\beta$, -$\gamma$, -$\delta$) observed by space-borne radiometers (OSIRIS, SCIAMACHY, OMI, and GOME-2), combining these precise, long-term observations with high-resolution data from the ground-based NSO/ISS spectrograph. We relate the detected variability to the appearance of magnetic features on the solar disk. We find that on solar-rotational timescales (about 1 month), the Balmer line activity indices (defined as line-core to line-wing ratios) closely follow variations in the total solar irradiance (which is predominantly photospheric), thus frequently (specifically, during passages of sunspot groups) deviating from behavior of activity indices that track chromospheric activity levels. On longer timescales, the correlation with chromospheric indices increases, with periods of low- or even anti-correlation found at intermediate timescales. Comparison of these observations with estimates from semi-empirical irradiance reconstructions helps quantify the contributions of different magnetic and quiet features. We conclude that both the lower sensitivity to network and in part the higher sensitivity to filaments and prominences, may result in complex, time-dependent relationships between Balmer and other chromospheric indices observed for the Sun and solar-like stars. The fact that core and wings contribute in similar manner to the variability, and current knowledge of Balmer-lines formation in stellar atmospheres, support the notion that Balmer lines core-to-wing ratios indices behave more like photospheric rather than chromospheric indices., Comment: Accepted for publication on ApJ on April 28, 2023

Published
2023
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2. The Effect of Stellar Contamination on Low-resolution Transmission Spectroscopy: Needs Identified by NASA's Exoplanet Exploration Program Study Analysis Group 21

Author

Rackham, Benjamin V., Espinoza, Néstor, Berdyugina, Svetlana V., Korhonen, Heidi, MacDonald, Ryan J., Montet, Benjamin T., Morris, Brett M., Oshagh, Mahmoudreza, Shapiro, Alexander I., Unruh, Yvonne C., Quintana, Elisa V., Zellem, Robert T., Apai, Dániel, Barclay, Thomas, Barstow, Joanna K., Bruno, Giovanni, Carone, Ludmila, Casewell, Sarah L., Cegla, Heather M., Criscuoli, Serena, Fischer, Catherine, Fournier, Damien, Giampapa, Mark S., Giles, Helen, Iyer, Aishwarya, Kopp, Greg, Kostogryz, Nadiia M., Krivova, Natalie, Mallonn, Matthias, McGruder, Chima, Molaverdikhani, Karan, Newton, Elisabeth R., Panja, Mayukh, Peacock, Sarah, Reardon, Kevin, Roettenbacher, Rachael M., Scandariato, Gaetano, Solanki, Sami, Stassun, Keivan G., Steiner, Oskar, Stevenson, Kevin B., Tregloan-Reed, Jeremy, Valio, Adriana, Wedemeyer, Sven, Welbanks, Luis, Yu, Jie, Alam, Munazza K., Davenport, James R. A., Deming, Drake, Dong, Chuanfei, Ducrot, Elsa, Fisher, Chloe, Gilbert, Emily, Kostov, Veselin, López-Morales, Mercedes, Line, Mike, Močnik, Teo, Mullally, Susan, Paudel, Rishi R., Ribas, Ignasi, and Valenti, Jeff A.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Solar and Stellar Astrophysics
Abstract

Study Analysis Group 21 (SAG21) of NASA's Exoplanet Exploration Program Analysis Group (ExoPAG) was organized to study the effect of stellar contamination on space-based transmission spectroscopy, a method for studying exoplanetary atmospheres by measuring the wavelength-dependent radius of a planet as it transits its star. Transmission spectroscopy relies on a precise understanding of the spectrum of the star being occulted. However, stars are not homogeneous, constant light sources but have temporally evolving photospheres and chromospheres with inhomogeneities like spots, faculae, plages, granules, and flares. This SAG brought together an interdisciplinary team of more than 100 scientists, with observers and theorists from the heliophysics, stellar astrophysics, planetary science, and exoplanetary atmosphere research communities, to study the current research needs that can be addressed in this context to make the most of transit studies from current NASA facilities like HST and JWST. The analysis produced 14 findings, which fall into three Science Themes encompassing (1) how the Sun is used as our best laboratory to calibrate our understanding of stellar heterogeneities ("The Sun as the Stellar Benchmark"), (2) how stars other than the Sun extend our knowledge of heterogeneities ("Surface Heterogeneities of Other Stars") and (3) how to incorporate information gathered for the Sun and other stars into transit studies ("Mapping Stellar Knowledge to Transit Studies"). In this invited review, we largely reproduce the final report of SAG21 as a contribution to the peer-reviewed literature., Comment: Invited review in press at RASTI. Based on the ExoPAG SAG21 report (arXiv:2201.09905v1) and refined via feedback from three reviewers. 75 pages, 30 figures, 5 tables

Published
2022

3. Reconstructing solar irradiance from historical Ca II K observations. I. Method and its validation

Author

Chatzistergos, Theodosios, Krivova, Natalie A., Ermolli, Ilaria, Yeo, Kok Leng, Mandal, Sudip, Solanki, Sami K., Kopp, Greg, and Malherbe, Jean-Marie

Subjects
Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics
Abstract

Knowledge of solar irradiance variability is critical to Earth's climate models and understanding the solar influence on Earth's climate. Direct solar irradiance measurements are only available since 1978. Reconstructions of past variability typically rely on sunspot data. These provide only indirect information on the facular and network regions, which are decisive contributors to irradiance variability on timescales of the solar cycle and longer. Our ultimate goal is to reconstruct past solar irradiance variations using historical full-disc Ca II K observations to describe the facular contribution independently of sunspot observations. Here, we develop the method and test it extensively by using modern CCD-based Ca II K observations and carry out initial tests on two photographic archives. We employ carefully reduced and calibrated Ca II K images from 13 datasets, such as those from the Meudon, Mt Wilson, and Rome observatories. We convert them to unsigned magnetograms and then use them as input to the adapted SATIRE model to reconstruct TSI variations over the period 1978-2019, for which direct irradiance measurements are available. The reconstructed TSI from the analysed Ca II K archives agrees well with direct TSI measurements and existing reconstructions. The model also returns good results on data taken with different bandpasses and images with low spatial resolution. Historical Ca II K archives suffer from numerous inconsistencies, but we show that these archives can still be used to reconstruct TSI with reasonable accuracy provided the observations are accurately processed. By using the unsigned magnetograms of the Sun reconstructed from high-quality Ca II K observations as input into the SATIRE model, we can reconstruct solar irradiance variations nearly as accurately as from directly recorded magnetograms., Comment: 25 pages, 15 figures, accepted for publication in A&A

Published
2021
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4. Irradiance Variations of the Sun and Sun-Like Stars -- Overview of Topical Collection

Author

Kopp, Greg and Shapiro, Alexander

Subjects
Astrophysics - Solar and Stellar Astrophysics
Abstract

This topical collection summarizes recent advances in observing and modeling irradiance variations of the Sun and Sun-like stars, emphasizing the links between surface magnetic fields and the resulting solar and stellar variability. In particular, the articles composing this collection summarize recent progress in i) solar-irradiance measurements; ii) modeling of solar- and stellar-irradiance variability; and iii) understanding of the effects of such variability on Earth's climate and exoplanet environments. This topical-collection overview article gives background and more details on these aspects of variability., Comment: accepted for Solar Physics

Published
2021
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5. Methodology to create a new Total Solar Irradiance record: Making a composite out of multiple data records

Author

de Wit, Thierry Dudok, Kopp, Greg, Fröhlich, Claus, and Schöll, Micha

Subjects
Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics, Physics - Data Analysis, Statistics and Probability
Abstract

Many observational records critically rely on our ability to merge different (and not necessarily overlapping) observations into a single composite. We provide a novel and fully-traceable approach for doing so, which relies on a multi-scale maximum likelihood estimator. This approach overcomes the problem of data gaps in a natural way and uses data-driven estimates of the uncertainties. We apply it to the total solar irradiance (TSI) composite, which is currently being revised and is critical to our understanding of solar radiative forcing. While the final composite is pending decisions on what corrections to apply to the original observations, we find that the new composite is in closest agreement with the PMOD composite and the NRLTSI2 model. In addition, we evaluate long-term uncertainties in the TSI, which reveal a 1/f scaling, Comment: slightly expanded version of a manuscript to appear in Geophysical Research Letters (2017)

Published
2017
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6. Sun-as-a-Star Spectral Line Variability in the 300–2390 nm Wavelength Range.

Author

Marchenko, Sergey V., Ludewig, Antje, Criscuoli, Serena, Al Moulla, Khaled, Choudhary, Debi P., DeLand, Matthew T., Kopp, Greg, Loots, Erwin, van der Plas, Emiel, and Veefkind, Pepijn

Subjects
SOLAR active regions, SOLAR cycle, SOLAR activity, SPECTRAL irradiance, SPECTRAL lines
Abstract

Combining the near-daily Ozone Monitoring Instrument (OMI) and Tropospheric Monitoring Instrument (TROPOMI) measurements of solar spectra, we construct line indices (line-core to line-flanks ratios) for various transitions (mainly Fe i) in the 300–2390 nm spectral domain. The indices are supplemented by the wavelength-binned fluxes from OMI and Total and Spectral Solar Irradiance Sensor (TSIS-1). To study the short-term (solar-rotational) patterns, we normalize the indices and fluxes to the minimum-activity epoch, then de-trend them with 81 day running means. Comparisons of the de-trended TSIS-1 and OMI fluxes with the NASA-NOAA-LASP SSI (NNLSSI1) model show excellent agreement, to (0.5–2.2) × 10−4 in the normalized and de-trended data. The data are subjected to a multiregression analysis against quantities representing the facular brightening and the sunspot darkening. The de-trended line indices and average fluxes show different sensitivities to these two solar magnetic-activity manifestations, with the fluxes being far more susceptible to the sunspot component. The de-trended line indices experience a rapid drop of activity levels towards longer wavelengths, albeit with a large rebound in the short-wave infrared (SWIR) domain that is caused by the ubiquitous, temperature-sensitive CO transitions. The wavelength-dependent activity also falls, however much slower, in the de-trended average fluxes. Qualitatively similar behavior is captured by semiempirical models. [ABSTRACT FROM AUTHOR]

Published
2024
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7. Magnitudes and Timescales of Total Solar Irradiance Variability

Author

Kopp, Greg

Subjects
Astrophysics - Solar and Stellar Astrophysics
Abstract

The Sun's net radiative output varies on timescales of minutes to gigayears. Direct measurements of the total solar irradiance (TSI) show changes in the spatially- and spectrally-integrated radiant energy on timescales as short as minutes to as long as a solar cycle. Variations of ~0.01 % over a few minutes are caused by the ever-present superposition of convection and oscillations with very large solar flares on rare occasion causing slightly-larger measureable signals. On timescales of days to weeks, changing photospheric magnetic activity affects solar brightness at the ~0.1 % level. The 11-year solar cycle shows variations of comparable magnitude with irradiances peaking near solar maximum. Secular variations are more difficult to discern, being limited by instrument stability and the relatively short duration of the space-borne record. Historical reconstructions of the Sun's irradiance based on indicators of solar-surface magnetic activity, such as sunspots, faculae, and cosmogenic isotope records, suggest solar brightness changes over decades to millennia, although the magnitudes of these variations have high uncertainties due to the indirect historical records on which they rely. Stellar evolution affects yet longer timescales and is responsible for the greatest solar variabilities. In this manuscript I summarize the Sun's variability magnitudes over different temporal regimes and discuss the irradiance record's relevance for solar and climate studies as well as for detections of exo-solar planets transiting Sun-like stars., Comment: Journal of Space Weather and Space Climate, 2016, 19 pp., 8 figures

Published
2016
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8. Nominal values for selected solar and planetary quantities: IAU 2015 Resolution B3

Author

Prsa, Andrej, Harmanec, Petr, Torres, Guillermo, Mamajek, Eric, Asplund, Martin, Capitaine, Nicole, Christensen-Dalsgaard, Joergen, Depagne, Eric, Haberreiter, Margit, Hekker, Saskia, Hilton, James, Kopp, Greg, Kostov, Veselin, Kurtz, Donald W., Laskar, Jacques, Mason, Brian D., Milone, Eugene F., Montgomery, Michele, Richards, Mercedes, Schmutz, Werner, Schou, Jesper, and Stewart, Susan G.

Subjects
Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics
Abstract

In this brief communication we provide the rationale for, and the outcome of the International Astronomical Union (IAU) resolution vote at the XXIX-th General Assembly in Honolulu, Hawaii, in 2015, on recommended nominal conversion constants for selected solar and planetary properties. The problem addressed by the resolution is a lack of established conversion constants between solar and planetary values and SI units: a missing standard has caused a proliferation of solar values (e.g., solar radius, solar irradiance, solar luminosity, solar effective temperature and solar mass parameter) in the literature, with cited solar values typically based on best estimates at the time of paper writing. As precision of observations increases, a set of consistent values becomes increasingly important. To address this, an IAU Working Group on Nominal Units for Stellar and Planetary Astronomy formed in 2011, uniting experts from the solar, stellar, planetary, exoplanetary and fundamental astronomy, as well as from general standards fields to converge on optimal values for nominal conversion constants. The effort resulted in the IAU 2015 Resolution B3, passed at the IAU General Assembly by a large majority. The resolution recommends the use of nominal solar and planetary values, which are by definition exact and are expressed in SI units. These nominal values should be understood as conversion factors only, not as the true solar/planetary properties or current best estimates. Authors and journal editors are urged to join in using the standard values set forth by this resolution in future work and publications to help minimize further confusion., Comment: 15 pages, 2 tables, accepted to AJ

Published
2016
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12. The solar magnetic activity band interaction and instabilities that shape quasi-periodic variability.

Author

McIntosh, Scott W, Leamon, Robert J, Krista, Larisza D, Title, Alan M, Hudson, Hugh S, Riley, Pete, Harder, Jerald W, Kopp, Greg, Snow, Martin, Woods, Thomas N, Kasper, Justin C, Stevens, Michael L, and Ulrich, Roger K

Abstract

Solar magnetism displays a host of variational timescales of which the enigmatic 11-year sunspot cycle is most prominent. Recent work has demonstrated that the sunspot cycle can be explained in terms of the intra- and extra-hemispheric interaction between the overlapping activity bands of the 22-year magnetic polarity cycle. Those activity bands appear to be driven by the rotation of the Sun's deep interior. Here we deduce that activity band interaction can qualitatively explain the 'Gnevyshev Gap'—a well-established feature of flare and sunspot occurrence. Strong quasi-annual variability in the number of flares, coronal mass ejections, the radiative and particulate environment of the heliosphere is also observed. We infer that this secondary variability is driven by surges of magnetism from the activity bands. Understanding the formation, interaction and instability of these activity bands will considerably improve forecast capability in space weather and solar activity over a range of timescales.

Published
2015

15. ARCSTONE: calibration of lunar spectral reflectance from space. Prototype instrument concept, analysis, and results

Author

Courrier, Hans, primary, Swanson, Rand, additional, Lukashin, Constantine, additional, Buleri, Christine, additional, Carvo, John, additional, Cooney, Michael, additional, Davis, Warren, additional, Halterman, Alexander, additional, Hoskins, Alan, additional, Jackson, Trevor, additional, Kehoe, Mike, additional, Kopp, Greg, additional, Nguyen, Thuan, additional, Ryan, Noah, additional, Roithmayr, Carlos, additional, Smith, Paul, additional, Stebbins, Mike, additional, Stone, Thomas, additional, and Young, Cindy, additional

Published
2023
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16. Spectral irradiance variations: Comparison between observations and the SATIRE model on solar rotation time scales

Author

Unruh, Yvonne C., Krivova, Natalie A., Solanki, Sami K., Harder, Jerald W., and Kopp, Greg

Subjects
Astrophysics
Abstract

Aims: We test the reliability of the observed and calculated spectral irradiance variations between 200 and 1600 nm over a time span of three solar rotations in 2004. Methods: We compare our model calculations to spectral irradiance observations taken with SORCE/SIM, SoHO/VIRGO and UARS/SUSIM. The calculations assume LTE and are based on the SATIRE (Spectral And Total Irradiance REconstruction) model. We analyse the variability as a function of wavelength and present time series in a number of selected wavelength regions covering the UV to the NIR. We also show the facular and spot contributions to the total calculated variability. Results: In most wavelength regions, the variability agrees well between all sets of observations and the model calculations. The model does particularly well between 400 and 1300 nm, but fails below 220 nm as well as for some of the strong NUV lines. Our calculations clearly show the shift from faculae-dominated variability in the NUV to spot-dominated variability above approximately 400 nm. We also discuss some of the remaining problems, such as the low sensitivity of SUSIM and SORCE for wavelengths between approximately 310 and 350 nm, where currently the model calculations still provide the best estimates of solar variability., Comment: 15 pages, 11 figures, accepted by A&A

Published
2008
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18. 300-year historical solar-irradiance reconstructions based on updated sunspot records and Advective Flux Transport model simulations

Author

Kopp, Greg, Coddington, Odele, Floyd, Linton, Lean, Judith, Upton, Lisa, and Wang, Yi-Ming

Abstract

A NASA-funded Solar Irradiance Science Team is reconstructing the historical total solar irradiance (TSI) based on the recently updated Sunspot Index and Long-term Solar Observations (SILSO) sunspot-record time series. This effort, needed for Earth climate-change studies, includes three primary components:Improve the sunspot-number records by including vetted measurement contributions from over a thousand observers spanning the last 400 years and applying new algorithmic methods to evaluate and combine those records into a sunspot-record composite.Simulate the historical solar-surface magnetic activity to match those updated sunspot records using the Advective Flux Transport (AFT) model, providing the primary sunspot- and facular-flux inputs needed for TSI reconstruction models.Update the “Community-Consensus TSI Composite” using the latest spacecraft measurements, linking the historical TSI reconstructions to this modern four-decade-long composite.The latest SILSO data were updated in 2015 by an international team using many newly discovered observational records and thorough evaluations of all records. This effort resulted in significant changes from prior such series and thus required reevaluations of all historical reconstructions based on the sunspot record. The AFT simulates the time evolution of the solar-surface flux to give solar-cycle peak dipole amplitudes and durations consistent with the sunspot record. Continuous magnetic-flux maps have been computed from 1750 to the present, giving realistic sunspot- and facular-area inputs needed for the NRLTSI reconstruction model to provide a new historical TSI reconstruction based on the updated SILSO records and these consistent flux-transport model results.We present the methodology used in this reconstruction and the latest TSI series based on this study., The 28th IUGG General Assembly (IUGG2023) (Berlin 2023)

Published
2023

19. The DARA/PROBA-3 radiometer: results from the preflight calibration campaign

Author

Montillet, Jean-philippe, primary, Schmutz, Werner, additional, Finsterle, Wolfgang, additional, Kopp, Greg, additional, Koller, Silvio, additional, Pfiffner, Daniel, additional, Gyo, Manfred, additional, Soder, Ricco, additional, Gander, Matthias, additional, Beeler, Lloyd, additional, Langer, Patrick, additional, Spescha, Marcel, additional, Schlatter, Pascal, additional, Föller, Jakob, additional, Haberreiter, Margit, additional, Heuerman, Karl, additional, and Zukhov, Andrei, additional

Published
2023
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21. The effect of stellar contamination on low-resolution transmission spectroscopy: needs identified by NASA’s Exoplanet Exploration Program Study Analysis Group 21

Author

Rackham, Benjamin V, primary, Espinoza, Néstor, additional, Berdyugina, Svetlana V, additional, Korhonen, Heidi, additional, MacDonald, Ryan J, additional, Montet, Benjamin T, additional, Morris, Brett M, additional, Oshagh, Mahmoudreza, additional, Shapiro, Alexander I, additional, Unruh, Yvonne C, additional, Quintana, Elisa V, additional, Zellem, Robert T, additional, Apai, Dániel, additional, Barclay, Thomas, additional, Barstow, Joanna K, additional, Bruno, Giovanni, additional, Carone, Ludmila, additional, Casewell, Sarah L, additional, Cegla, Heather M, additional, Criscuoli, Serena, additional, Fischer, Catherine, additional, Fournier, Damien, additional, Giampapa, Mark S, additional, Giles, Helen, additional, Iyer, Aishwarya, additional, Kopp, Greg, additional, Kostogryz, Nadiia M, additional, Krivova, Natalie, additional, Mallonn, Matthias, additional, McGruder, Chima, additional, Molaverdikhani, Karan, additional, Newton, Elisabeth R, additional, Panja, Mayukh, additional, Peacock, Sarah, additional, Reardon, Kevin, additional, Roettenbacher, Rachael M, additional, Scandariato, Gaetano, additional, Solanki, Sami, additional, Stassun, Keivan G, additional, Steiner, Oskar, additional, Stevenson, Kevin B, additional, Tregloan-Reed, Jeremy, additional, Valio, Adriana, additional, Wedemeyer, Sven, additional, Welbanks, Luis, additional, Yu, Jie, additional, Alam, Munazza K, additional, Davenport, James R A, additional, Deming, Drake, additional, Dong, Chuanfei, additional, Ducrot, Elsa, additional, Fisher, Chloe, additional, Gilbert, Emily, additional, Kostov, Veselin, additional, López-Morales, Mercedes, additional, Line, Mike, additional, Močnik, Teo, additional, Mullally, Susan, additional, Paudel, Rishi R, additional, Ribas, Ignasi, additional, and Valenti, Jeff A, additional

Published
2023
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26. Northern Tornadoes Project. Annual Report 2021 v2

Author

Sills, David and Kopp, Greg

Subjects
Canada, tornadoes, damaging wind events, Environmental Sciences
Abstract

The Northern Tornado Project’s third year of detecting, assessing and documenting tornadoes and other damaging wind events across Canada saw some interesting extremes – tornadoes in parts of both the Atlantic and Pacific coasts for the first time in decades, an apparent absence of tornadoes on the Prairies over the 60 days with the highest climatological frequency, a record number of significant (EF2+) tornadoes in Ontario, and massive downbursts in NE British Columbia, NW Alberta and SW Northwest Territories associated with an historic ‘heat dome’. On top of this, the COVID-19 pandemic was still spreading across the country in waves. Thankfully, it subsided enough over the summer that NTP teams were able to travel safely to various locations across the country for ground surveys. Some of the most challenging ground surveys investigated high-impact damage from the July 15th EF2 Barrie, Ontario tornado, and others significant tornadoes from that day. Since 2019, founding partners Western University and ImpactWX, in conjunction with other partners and collaborators, have been undertaking the most comprehensive tornado analyses ever made in Canada. In 2021, we were able to bring on new partners (Instant Weather, CatIQ) and new staff members (bilingual research assistant Francis Lavigne-Theriault, Western Libraries GIS Technical Specialist Jordan Fuller). We also sadly lost one of our external research partners, Arn Womble. In addition, the public-facing Dashboard and Open Data Site have become more useful and user friendly. Together with our research, it is a step towards fulfilling our vision that Canadians are better informed about tornadoes and are able to better protect their homes and communities. We’ve also continued to be community driven. We initiated a "Super-Contributor" program to recognize our most active and knowledgeable contributors of social media reports and data (and rewarded them with stylish NTP ball caps!). We’ve made numerous media appearances, some national in scope, as well as given NTP talks to a number of different organizations. You’ll find the details in the pages of our annual report.

Published
2022

27. Final Report for SAG 21: The Effect of Stellar Contamination on Space-based Transmission Spectroscopy

Author

Rackham, Benjamin V., Espinoza, Néstor, Berdyugina, Svetlana V., Korhonen, Heidi, MacDonald, Ryan J., Montet, Benjamin T., Morris, Brett M., Oshagh, Mahmoudreza, Shapiro, Alexander I., Unruh, Yvonne C., Quintana, Elisa V., Zellem, Robert T., Apai, Dániel, Barclay, Thomas, Barstow, Joanna K., Bruno, Giovanni, Carone, Ludmila, Casewell, Sarah L., Cegla, Heather M., Criscuoli, Serena, Fischer, Catherine, Fournier, Damien, Giampapa, Mark S., Giles, Helen, Iyer, Aishwarya, Kopp, Greg, Kostogryz, Nadiia M., Krivova, Natalie, Mallonn, Matthias, McGruder, Chima, Molaverdikhani, Karan, Newton, Elisabeth R., Panja, Mayukh, Peacock, Sarah, Reardon, Kevin, Roettenbacher, Rachael M., Scandariato, Gaetano, Solanki, Sami, Stassun, Keivan G., Steiner, Oskar, Stevenson, Kevin B., Tregloan-Reed, Jeremy, Valio, Adriana, Wedemeyer, Sven, Welbanks, Luis, Yu, Jie, Alam, Munazza K., Davenport, James R. A., Deming, Drake, Dong, Chuanfei, Ducrot, Elsa, Fisher, Chloe, Gilbert, Emily, Kostov, Veselin, López-Morales, Mercedes, Line, Mike, Močnik, Teo, Mullally, Susan, Paudel, Rishi R., Ribas, Ignasi, Valenti, Jeff A., Rackham, Benjamin V., Espinoza, Néstor, Berdyugina, Svetlana V., Korhonen, Heidi, MacDonald, Ryan J., Montet, Benjamin T., Morris, Brett M., Oshagh, Mahmoudreza, Shapiro, Alexander I., Unruh, Yvonne C., Quintana, Elisa V., Zellem, Robert T., Apai, Dániel, Barclay, Thomas, Barstow, Joanna K., Bruno, Giovanni, Carone, Ludmila, Casewell, Sarah L., Cegla, Heather M., Criscuoli, Serena, Fischer, Catherine, Fournier, Damien, Giampapa, Mark S., Giles, Helen, Iyer, Aishwarya, Kopp, Greg, Kostogryz, Nadiia M., Krivova, Natalie, Mallonn, Matthias, McGruder, Chima, Molaverdikhani, Karan, Newton, Elisabeth R., Panja, Mayukh, Peacock, Sarah, Reardon, Kevin, Roettenbacher, Rachael M., Scandariato, Gaetano, Solanki, Sami, Stassun, Keivan G., Steiner, Oskar, Stevenson, Kevin B., Tregloan-Reed, Jeremy, Valio, Adriana, Wedemeyer, Sven, Welbanks, Luis, Yu, Jie, Alam, Munazza K., Davenport, James R. A., Deming, Drake, Dong, Chuanfei, Ducrot, Elsa, Fisher, Chloe, Gilbert, Emily, Kostov, Veselin, López-Morales, Mercedes, Line, Mike, Močnik, Teo, Mullally, Susan, Paudel, Rishi R., Ribas, Ignasi, and Valenti, Jeff A.

Abstract

Study Analysis Group 21 (SAG21) of the Exoplanet Exploration Program Analysis Group (ExoPAG) was organized to study the effect of stellar contamination on space-based transmission spectroscopy, a method for studying exoplanetary atmospheres by measuring the wavelength-dependent radius of a planet as it transits its star. Transmission spectroscopy relies on a precise understanding of the spectrum of the star being occulted. However, stars are not homogeneous, constant light sources but have temporally evolving photospheres and chromospheres with inhomogeneities like spots, faculae, and plages. This SAG has brought together an interdisciplinary team of more than 100 scientists, with observers and theorists from the heliophysics, stellar astrophysics, planetary science, and exoplanetary atmosphere research communities, to study the current needs that can be addressed in this context to make the most of transit studies from current NASA facilities like HST and JWST. The analysis produced 14 findings, which fall into three Science Themes encompassing (1) how the Sun is used as our best laboratory to calibrate our understanding of stellar heterogeneities ("The Sun as the Stellar Benchmark"), (2) how stars other than the Sun extend our knowledge of heterogeneities ("Surface Heterogeneities of Other Stars") and (3) how to incorporate information gathered for the Sun and other stars into transit studies ("Mapping Stellar Knowledge to Transit Studies")., Comment: 122 pages, 30 figures

Published
2022

31. Climate Change Observation Accuracy: Requirements and Economic Value

Author

Wielicki, Bruce, Cooke, Roger, Golub, Alexander, Baize, Rosemary, Mlynczak, Martin, Lukashin, Constantin, Thome, Kurt, Shea, Yolanda, Kopp, Greg, Pilewskie, Peter, Revercomb, Henry, and Best, Fred

Subjects
Economics And Cost Analysis, Meteorology And Climatology
Abstract

This presentation will summarize a new quantitative approach to determining the required accuracy for climate change observations. Using this metric, most current global satellite observations struggle to meet this accuracy level. CLARREO (Climate Absolute Radiance and Refractivity Observatory) is a new satellite mission designed to resolve this challenge is by achieving advances of a factor of 10 for reflected solar spectra and a factor of 3 to 5 for thermal infrared spectra. The CLARREO spectrometers can serve as SI traceable benchmarks for the Global Satellite Intercalibration System (GSICS) and greatly improve the utility of a wide range of LEO and GEO infrared and reflected solar satellite sensors for climate change observations (e.g. CERES, MODIS, VIIIRS, CrIS, IASI, Landsat, etc). A CLARREO Pathfinder mission for flight on the International Space Station is included in the U.S. Presidentâ€"TM"s fiscal year 2016 budget, with launch in 2019 or 2020. Providing more accurate decadal change trends can in turn lead to more rapid narrowing of key climate science uncertainties such as cloud feedback and climate sensitivity. A new study has been carried out to quantify the economic benefits of such an advance and concludes that the economic value is ~ $9 Trillion U.S. dollars. The new value includes the cost of carbon emissions reductions.

Published
2016

33. Building Climate Resilient Communities: Living Within the Earth’s Carrying Capacity

Author

McBean, Gordon, Kovacs, Paul, Voogt, James, Kopp, Greg, and Guilbault, Sophie

Subjects
climate resilient communities, Geography, climate resilience, Climate, climate impacts on communities, climate adaptation, Nature and Society Relations, Canadian communities
Abstract

This Knowledge Synthesis examines how Canadian communities can proactively advance climate resilience to effectively reduce the risk from climate change impacts. Our synthesis reveals that some communities have prepared high level adaptation plans, but very few have a detailed implementation strategy with established funding frameworks. Most actions to build community resilience in Canada are unplanned and take place in recovery following an extreme loss event. Indigenous communities are at the forefront of climate change adaptation in Canada. Self-determination and adaptive capacity building through community-led risk assessments, planning, and disaster recovery organizations, while addressing the broader context of reconciliation gaps and opportunities for integration, are important for climate resiliency. Combining Western and Indigenous ways of knowing for effective knowledge translation is necessary for adaptation. Indigenous collaborations that promote nature-based solutions and conservation are critical to global GHG sequestration and resilience. Local scale urban warming experienced by Canadian communities adds to the heat burden in the warm season and further exacerbates social, health and economic impacts. More research is needed to document and predict the occurrence of heatwaves and to develop heat adaptation strategies for Canadian cities. There are physical and mental health impacts of heatwaves and climate change. To address the climate crisis, a more ambitious, strategic and collaborative approach to adaptation is required. Proven tools exist to proactively improve climate resilience. A major issue is lack of funding and direction for governments and indigenous communities to address climate resilience. The executive summary of the full report provides key messages.

Published
2021

34. Understanding variability of solar Balmer lines

Author

Criscuoli, Serena, Marchenko, Sergey, DeLand, Matthew, Choudary, Debi, and Kopp, Greg

Subjects
Stellar Chromosphere, Balmer lines, Stellar variability, Activity Indices, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Solar Irradiance variability, Magnetic activity
Abstract

Precise, adequately high-cadence, long-term records of spectral variability at different temporal scales lead to better understanding of a wide variety of phenomena including stellar atmospheres and dynamos, evolution of the magnetic fields on a stellar photosphere, convective motions, and rotational periods. These, in turn, are fundamental for the detectability of exoplanets, the characterization of their atmospheresand habitability, as well as characterization of stellar magnetospheres and winds. The Sun, viewed as a star via spectral irradiance measurements, offers a means of exploring such measurements while also having the imaging capability to help discern the causes of observed spectral variations. In this study, we investigate the variability of solar Balmer lines (H-α, β, γ and δ) observed by space-borne radiometers, combining these precise, long-term observations with abundant, high-resolution data from the ground-based NSO/ISS spectrograph. We relate the detected variability to magnetic features on the solar disk. We find that on solar-rotation timescales (~month), the Balmer line activity indices (defined as line-core to line-wing ratios) closely follow variations in the total solar irradiance (which is predominantly photospheric), thus frequently (specifically, during passages of big sunspot groups) deviates from behavior of the line-activity indices that track chromospheric activity levels. At longer timescales (years), the correlation with chromospheric indices increases, with periods of low- or even anti- correlation found at intermediate timescales. Comparisons with Balmer-line variability patterns obtained from a semi-empirical model indicate the periods of low/anti correlations should be attributed to the increase of the relative abundance of network, which affects the Ca-index while leaving almost un-altered the Hα-index.

Published
2021
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35. An assessment of the solar irradiance record for climate studies

Author

Kopp Greg

Subjects
total irradiance, Sun, climate, global change, energy balance, Meteorology. Climatology, QC851-999
Abstract

Total solar irradiance, the spatially and spectrally integrated radiant output from the Sun at a mean Sun-Earth distance of 1 astronomical unit, provides nearly all the energy driving the Earth’s climate system. Variations in this energy, particularly over long time scales, contribute to changes in Earth’s climate and have been linked to historical glaciation and inter-glacial periods as well as having a small effect on more recent global warming. Accurate measurements of solar irradiances require measurements above the Earth’s atmosphere. The total solar irradiance spaceborne record began in 1978 and has been uninterrupted since, with over a dozen instruments contributing to the present solar climate data record. I assess the required and achieved accuracies of this record with a focus on its value for climate studies.

Published
2014
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36. Improved Radiometric Accuracies for Climate Science with HySICS

Author

Kopp, Greg, Smith, Paul, Fleming, Gary, Pilewskie, Peter, and Wielicki, Bruce A.

Abstract

The HyperSpectral Imager for Climate Science (HySICS), to be flown as the CLARREO Pathfinder payload in 2023, will acquire images of the Earth’s ground and atmosphere with unprecedented radiometric accuracies of

Published
2020

38. Clarreo Pathfinder: Mission Overview and Current Status

Author

Shea, Yolanda, primary, Fleming, Gary, additional, Kopp, Greg, additional, Lukashin, Constantine, additional, Pilewskie, Peter, additional, Smith, Paul, additional, Thome, Kurt, additional, Wielicki, Bruce, additional, Liu, Xu, additional, and Wu, Wan, additional

Published
2020
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40. The ARCSTONE Project to Calibrate Lunar Reflectance

Author

Swanson, Rand, primary, Kehoe, Michael, additional, Stebbins, Michael, additional, Courrier, Hans, additional, Lukashin, Constantine, additional, Jackson, Trevor, additional, Cooney, Michael, additional, Davis, Warren, additional, Kopp, Greg, additional, Smith, Paul, additional, Buleri, Christine, additional, and Stone, Thomas C., additional

Published
2020
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43. Calibration for astrophysics using an artificial star with NIST-traceable distribution of luminous energy (CANDLE) instrument development

Author

Coyle, Laura E., Matsuura, Shuji, Perrin, Marshall D., Peretz, Eliad, Deustua, Susana, Rice, Joe, Alberding, Brian G., Shirley, Eric, Bui, Thinh Q., Shavit, Keshet, Kuesters, Daniel, Aldering, Greg, Vorobiev, Dmitry, Papa, Jonathan, Bohlin, Ralph, Rose, Benjamin, Albert, Justin, Pachowicz, Piotr, Landry, Jean Thomas, Gauvin, Etienne, Michaud-Bayens, Thomas, Kopp, Greg, Mather, John, Plavchan, Peter, and Tanner, Angelle

Published
2024
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44. From Laboratory to CubeSat - Room Temperature Absolute Bolometers for Laser Power Standards, Solar Spectral Irradiance, and Total Solar Irradiance

Author

Stephens, Michelle, Tomlin, Nathan A., Yung, Chris, Ryger, Ivan, White, Malcolm, Lehman, John, Harber, David, Kopp, Greg, Heuerman, Karl, Sprunck, Jacob, Castleman, Zach, Drake, Ginger, and Richard, Erik

Subjects
Physics::Instrumentation and Detectors, Astrophysics::Instrumentation and Methods for Astrophysics
Abstract

Planar micromachined silicon bolometers with carbon nanotube absorbers provide high accuracy, compact, and rugged radiation detection. We are building on the success of our silicon micromachined planar detectors operating at cryogenic temperatures1 to develop similar electrical substitution bolometers that operate at room temperatures. These bolometers currently have applications as both laboratory standards for laser optical power and for solar irradiance monitors in space. Room temperature operation of these detectors for the above applications presents a different set of technical challenges from similar cryogenic detectors. The materials used for temperature measurement are different and inherently noisier, time constants are longer, and practical applications demand a greater dynamic range in power and a larger detector size. We will describe the design and performance of three room temperature devices. The first is a laboratory based room temperature device for precision CW optical power measurements (Next-Gen C). This standard operates from 0.4 to 2 um and over a dynamic range of 50 uW to 100 mW. The second is a bolometer designed for solar spectral irradiance measurement that will be part of the Compact Spectral Irradiance Monitor (CSIM) CubeSat mission, scheduled for launch in the Fall of 2018. The third is a bolometer under development for total solar irradiance measurement as part of the Compact Total Irradiance Monitor (CTIM) instrument development.

Published
2018

45. ARCSTONE: Calibration of Lunar Spectral Reflectance

Author

Lukashin, Constantine, Jackson, Trevor, Cooney, Michael, Ryan, Noah, Beverly, Joshua, Young, Cindy, Rutherford, Gugu, Davis, Warren, Nguyen, Thuan, Swanson, Randy, Kehoe, Michael, Stebbins, Michael, Kopp, Greg, and Stone, Tom

Subjects
Physics::Space Physics, Astrophysics::Instrumentation and Methods for Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Physics::Geophysics
Abstract

Calibration accuracy, long-term precision, and inter-consistency are key on-orbit performance metrics for Earth observing sensors. The accuracy and consistency of environmental measurements across multiple instruments in low Earth and geostationary orbits are directly connected to the scientific understanding of complex systems, such as Earth’s weather and climate. Recent studies have demonstrated the quantitative impacts of observational accuracy on the quality of science data products and the ability to detect climate change trends for essential climate variables (e.g., Earth’s radiation budget, cloud feedback, and long-term trends in cloud parameters). It is common for instruments to carry on-board references for calibration at various wavelengths, but these can be subject to degradation, and also increase mass and risk. The Moon can be considered a natural solar diffuser in space. Establishing the Moon as a high-accuracy calibration reference enables broad inter-calibration opportunities, as the lunar reflectance is effectively time-invariant and can be directly measured by most Earth-observing instruments. Existing approaches to calibrate sensors against the Moon can achieve stabilities of tenths of a percent over a decade, as demonstrated by the SeaWIFS. However, current lunar calibration capabilities have uncertainties of 5 – 10%, attributed to the photometric model of the Moon. Significant improvements in the lunar reference and calibration are possible, and are necessary for improving accuracy of Earth climate observations. The ARCSTONE mission goal is to provide a reliable reference for high-accuracy on-orbit calibration for reflected solar instruments. The ARCSTONE instrument is a lunar/solar spectrometer intended to fly on a CubeSat in low Earth orbit. It will provide lunar spectral reflectance with accuracy < 0.5% (k = 1), sufficient to establish an SI-traceable absolute lunar calibration standard for past, current, and future Earth environmental, weather and climate sensors. The ARCSTONE team will present the instrument design status and path forward for development, building, calibration and testing.

Published
2018

47. Compact total irradiance monitor flight demonstration

Author

Harber, David M., primary, Castleman, Zach, additional, Drake, Ginger, additional, Van Dreser, Samuel, additional, Farber, Nat, additional, Heuerman, Karl, additional, Miller, Marc, additional, Rutkowski, Joel, additional, Sims, Alan, additional, Sprunck, Jacob, additional, Straatsma, Cameron, additional, Wanamaker, Isaac, additional, Zheng, Wengang, additional, Kopp, Greg, additional, Richard, Erik C., additional, Pilewskie, Peter, additional, Tomlin, Nathan, additional, Stephens, Michelle, additional, Yung, Chris, additional, White, Malcolm, additional, and Lehman, John, additional

Published
2019
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48. Stay tuned: photonic filters color your world

Author

Kopp, Greg and Derks, Michael

Subjects
Photonics -- Usage, Spectral sensitivity -- Research, Light filters -- Research, Business, Electronics and electrical industries, Engineering and manufacturing industries
Published
1997

49. Effects of upstream roughness on turbulent flow over a forward-facing step

Author

Kuhn, David (Mechanical Engineering) Stadnyk, Tricia (Civil Engineering) Kopp, Greg (Civil and Environmental Engineering, Western University), Tachie, Mark (Mechanical Engineering), Nematollahi, Ali, Kuhn, David (Mechanical Engineering) Stadnyk, Tricia (Civil Engineering) Kopp, Greg (Civil and Environmental Engineering, Western University), Tachie, Mark (Mechanical Engineering), and Nematollahi, Ali

Abstract

This study reports an experimental investigation of the effects of upstream roughness on the turbulent boundary layer over a forward-facing step. Two types of upstream roughness were investigated, including a transitionally rough 16-grit sandpaper (ks+ ≈ 69) and fully rough staggered cubes (ks+ ≈ 500). A two-dimensional two-component time-resolved particle image velocimetry (2D-2C TR-PIV) method was used to measure the mean velocities, Reynolds stresses, temporal auto-correlations and frequency spectra of the flow field to quantify the influence of upstream roughness on the downstream evolution of the turbulence over the step. The results indicate that upstream roughness decreased the vortex shedding frequency. Roughness also decreased the reattachment length by enhancing the streamwise turbulence intensity level, reducing the magnitude of backflow and suppressing the vortex shedding frequency in comparison to the smooth wall. In the recirculation region, upstream roughness reduced the mean streamwise velocity only in the outer layer. The Reynolds stresses remained relatively unchanged by the sandpaper roughness but were significantly modified by the cube roughness. Downstream of the leading edge, the staggered cubes increased the streamwise Reynolds stress both near the wall and outside the shear layer but decreased the wall-normal Reynolds stress and Reynolds shear stress within the shear layer. These modifications are inversely proportional to distance in the recirculation region. The life times of the streamwise and wall-normal velocity fluctuations increase with streamwise distance and are much longer in the redevelopment region than in the recirculation region. The quadrant decomposition method and joint probability density functions were used to characterize the dominant motions producing the Reynolds shear stress. Multi-point statistics such as two-point spatial and space-time correlations were used to quantify the impact of large upstream roughness on the d

Published
2019

50. Polarization put in perspective

Author

Kopp, Greg and Pagano, Laura A.

Subjects
Polarization (Light) -- Analysis, Optoelectronics -- Analysis, Polarizers (Light) -- Analysis, Optical instruments -- Analysis, Business, Electronics and electrical industries, Engineering and manufacturing industries
Published
1995

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