Your search keyword '"Soriano, Manny"' showing total 9 results

1. An Approach to Magnetic Cleanliness for the Psyche Mission

Author

Lord, P, de Soria-Santacruz Pich, Maria, Soriano, Manny, Quintero, Ofelia, Wong, Frankie, Hart, Shirley, Bone, Brian, Solish, Ben, Trofimov, Denis, Bradford, Emma, Raymond, Carol, Narvaez, Pablo, Ream, J, Oran, R, Weiss, B.P, Ascrizzi, K, Keys, C, Russell, C, and Elkins-Tanton, L

Abstract

In this paper we describe the derivation of these requirements, test and analyses methods, and more generally the processes and procedures that govern the magnetics program for Psyche. The paper concludes with a discussion of the challenges and work to go and a comparison with the magnetic control processes of other missions with similar magnetic cleanliness constraints.

Published

2020

2. An Approach to Magnetic Cleanliness for the Psyche Mission

Author

de Soria-Santacruz Pich, Maria, Soriano, Manny, Quintero, Ofelia, Wong, Frankie, Hart, Shirley, Bone, Brian, Solish, Ben, Trofimov, Denis, Bradford, Emma, Raymond, Carol, Narvaez, Pablo, Ream, J, Oran, R, Weiss, B.P, Ascrizzi, K, Keys, C, Lord, P, Russell, C, and Elkins-Tanton, L

Published

2020

3. The Earth Surface Mineral Dust Source Investigation: An Earth Science Imaging Spectroscopy Mission

Author

Miller, Ron, Mouroulis, Pantazis, Oaida, Bogdan, Okin, Greg, Ortega, Alberto, Oyake, Amalaye, Nguyen, Hung, Pace, Theresa, Painter, Thomas H, Pempejian, Jack, Perez Garcia-Pando, Carlos, Pham, Thang, Phillips, Benjamin, Pollock, Randy, Purcell, Richard, Realmuto, Vincent, Schoolcraft, Josh, Sen, Amit, Shin, Simon, Shaw, Lucas, Soriano, Manny, Duren, Riley, Eastwood, Michael, Ehlmann, Bethany, Fuentes, Lisa, Ginoux, Paul, Gross, Johannes, He, Yutao, Kalashnikova, Olga, Kert, William, Keymeulen, Didier, Klimesh, Matt, Ku, Daniel, Kwong-Fu, Helenann, Liggett, Elliott, Lundeen, Sarah, Makowski, Maciej D, Mazer, Alan, Swayze, Gregg, Thingvold, Erik, Vaid, Afsheen, Zan, Jason, Green, Robert O, Mahowald, Natalie, Ung, Charlene, Thompson, David R, Bator, Lori, Bennet, Matthew, Bernas, Michael, Blackway, Natalie, Bradley, Christine, Cha, Jeff, Clark, Pamela, Clark, Roger, Cloud, Deborah, Diaz, Ernesto, and Dor, Eyal Ben

Abstract

The Earth Surface Mineral Dust Source Investigation, EMIT, is planned to operate from the International Space Station starting no earlier than the fall of 2021. EMIT will use visible to short wavelength infrared imaging spectroscopy to determine the mineral composition of the arid land dust source regions of the Earth to advance our knowledge of the radiative forcing effect of these aerosols. Mineral dust emitted into the atmosphere under high wind conditions is an element of the Earth system with many impacts to the Earth’s energy balance, atmosphere, surface, and oceans. The Earth’s mineral dust cycle with source, transport, and deposition phases are studied with advanced Earth System Models. Because the chemical composition, optical and surface properties of soil particles vary strongly with the mineral composition of the source, these models require knowledge of surface soil mineral dust source composition knowledge to accurately understand dust impacts on the Earth system now and in the future. At present, compositional knowledge of the Earth’s mineral dust source regions from existing data sets is uncertain as a result of limited measurements. EMIT will use spectroscopically derived surface mineral composition to update the prescribe boundary conditions for state-of-the-art Earth System Models. The EMIT-initialized models will be used to investigate the impact of direct radiative forcing in the Earth system that depends strongly on the composition of the mineral dust aerosols emitted into the atmosphere. These new measurements and related products will be used to address the EMIT science objectives and made available to the science community for additional investigations. An overview of the EMIT science, development, and mission is presented in this paper.

Published

2020

4. The Earth Surface Mineral Dust Source Investigation: An Earth Science Imaging Spectroscopy Mission

Author

Green, Robert O, Mahowald, Natalie, Ung, Charlene, Thompson, David R, Bator, Lori, Bennet, Matthew, Bernas, Michael, Blackway, Natalie, Bradley, Christine, Cha, Jeff, Clark, Pamela, Clark, Roger, Cloud, Deborah, Diaz, Ernesto, Dor, Eyal Ben, Duren, Riley, Eastwood, Michael, Ehlmann, Bethany, Fuentes, Lisa, Ginoux, Paul, Gross, Johannes, He, Yutao, Kalashnikova, Olga, Kert, William, Keymeulen, Didier, Klimesh, Matt, Ku, Daniel, Kwong-Fu, Helenann, Liggett, Elliott, Lundeen, Sarah, Makowski, Maciej D, Mazer, Alan, Miller, Ron, Mouroulis, Pantazis, Oaida, Bogdan, Okin, Greg, Ortega, Alberto, Oyake, Amalaye, Nguyen, Hung, Pace, Theresa, Painter, Thomas H, Pempejian, Jack, Perez Garcia-Pando, Carlos, Pham, Thang, Phillips, Benjamin, Pollock, Randy, Purcell, Richard, Realmuto, Vincent, Schoolcraft, Josh, Sen, Amit, Shin, Simon, Shaw, Lucas, Soriano, Manny, Swayze, Gregg, Thingvold, Erik, Vaid, Afsheen, and Zan, Jason

Published

2020

5. Systems Test Strategies for the Psyche Orbital Operations Phase

Author

Larson, Kristina, primary, Bates-Tarasewicz, Haley, additional, Matthes, Chris, additional, Solish, Ben, additional, and Soriano, Manny, additional

Published

2023

6. The Earth surface mineral dust source investigation: An Earth Science imaging spectroscopy mission

Author

Green, Robert O., Mahowald, Natalie, Ung, Charlene, Thompson, David R., Bator, Lori, Bennet, Matthew, Bernas, Michael, Blackway, Natalie, Bradley, Christine, Cha, Jeff, Clark, Pamela, Clark, Roger, Cloud, Deborah, Diaz, Ernesto, Dor, Eyal Ben, Duren, Riley, Eastwood, Michael, Ehlmann, Bethany L., Fuentes, Lisa, Ginoux, Paul, Gross, Johannes, He, Yutao, Kalashnikova, Olga, Kert, William, Keymeulen, Didier, Klimesh, Matt, Ku, Daniel, Kwong-Fu, Helenann, Liggett, Elliott, Li, Longlie, Lundeen, Sarah, Makowski, Maciej D., Mazer, Alan, Mouroulis, Pantazis, Oaida, Bogdan, Ortega, Alberto, Oyake, Amalaye, Nguyen, Hung, Pace, Theresa, Painter, Thomas H., Pempejian, Jack, Pérez García-Pando, Carlos, Pham, Thang, Phillips, Benjamin, Pollock, Randy, Purcell, Richard, Realmuto, Vincent, Schoolcraft, Josh, Sen, Amit, Shin, Simon, Shaw, Lucas, Soriano, Manny, Thingvold, Erik, Vaid, Afsheen, Zan, Jason, and Barcelona Supercomputing Center

Subjects

Mineral dusts, Atmospheric optics, Aerosols, Minerals, Soil, Enginyeria agroalimentària::Ciències de la terra i de la vida [Àrees temàtiques de la UPC], Infrared imaging, Pols, Dust, Astrophysics::Earth and Planetary Astrophysics, Earth systems data and models, Physics::Geophysics

Abstract

The Earth Surface Mineral Dust Source Investigation, EMIT, is planned to operate from the International Space Station starting no earlier than the fall of 2021. EMIT will use visible to short wavelength infrared imaging spectroscopy to determine the mineral composition of the arid land dust source regions of the Earth to advance our knowledge of the radiative forcing effect of these aerosols. Mineral dust emitted into the atmosphere under high wind conditions is an element of the Earth system with many impacts to the Earth's energy balance, atmosphere, surface, and oceans. The Earth's mineral dust cycle with source, transport, and deposition phases are studied with advanced Earth System Models. Because the chemical composition, optical and surface properties of soil particles vary strongly with the mineral composition of the source, these models require knowledge of surface soil mineral dust source composition to accurately understand dust impacts on the Earth system now and in the future. At present, compositional knowledge of the Earth's mineral dust source regions from existing data sets is uncertain as a result of limited measurements. EMIT will use spectroscopically-derived surface mineral composition to update the prescribed boundary conditions for state-of-the-art Earth System Models. The EMIT-initialized models will be used to investigate the impact of direct radiative forcing in the Earth system that depends strongly on the composition of the mineral dust aerosols emitted into the atmosphere. These new measurements and related products will be used to address the EMIT science objectives and made available to the science community for additional investigations. An overview of the EMIT science, development, and mission is presented in this paper. The authors gratefully acknowledge NASA and the Earth System Science Pathfinder program office as well as the broad set of contributors to the EMIT mission. A portion of this work was carried out at the Jet Propulsion Laboratory / California Institute of Technology, Pasadena, California, undercontract with the National Aeronautics and Space Administration.

Published

2020

7. Earth Surface Mineral Dust Source Investigation: An Earth Science Imaging Spectroscopy Mission

Author

Green, Robert O., Mahowald, Natalie, Ung, Charlene, Thompson, David R., Bator, Lori, Bennet, Matthew, Bernas, Michael, Blackway, Natalie, Bradley, Christine, Cha, Jeff, Clark, Pamela, Clark, Roger, Cloud, Deborah, Diaz, Ernesto, Ben Dor, Eyal, Duren, Riley, Eastwood, Michael, Ehlmann, Bethany L., Fuentes, Lisa, Ginoux, Paul, Gross, Johannes, He, Yutao, Kalashnikova, Olga, Kert, William, Keymeulen, Didier, Klimesh, Matt, Ku, Daniel, Kwong-Fu, Helenann, Liggett, Elliott, Li, Longlie, Lundeen, Sarah, Makowski, Maciej D., Mazer, Alan, Miller, Ron, Mouroulis, Pantazis, Oaida, Bogdan, Okin, Greg S., Ortega, Alberto, Oyake, Amalaye, Nguyen, Hung, Pace, Theresa, Painter, Thomas H., Pempejian, Jack, Garcia-Pando, Carlos Perez, Pham, Thang, Phillips, Benjamin, Pollock, Randy, Purcell, Richard, Realmuto, Vincent, Schoolcraft, Josh, Sen, Amit, Shin, Simon, Shaw, Lucas, Soriano, Manny, Swayze, Gregg, Thingvold, Erik, Vaid, Afsheen, Zan, Jason, Green, Robert O., Mahowald, Natalie, Ung, Charlene, Thompson, David R., Bator, Lori, Bennet, Matthew, Bernas, Michael, Blackway, Natalie, Bradley, Christine, Cha, Jeff, Clark, Pamela, Clark, Roger, Cloud, Deborah, Diaz, Ernesto, Ben Dor, Eyal, Duren, Riley, Eastwood, Michael, Ehlmann, Bethany L., Fuentes, Lisa, Ginoux, Paul, Gross, Johannes, He, Yutao, Kalashnikova, Olga, Kert, William, Keymeulen, Didier, Klimesh, Matt, Ku, Daniel, Kwong-Fu, Helenann, Liggett, Elliott, Li, Longlie, Lundeen, Sarah, Makowski, Maciej D., Mazer, Alan, Miller, Ron, Mouroulis, Pantazis, Oaida, Bogdan, Okin, Greg S., Ortega, Alberto, Oyake, Amalaye, Nguyen, Hung, Pace, Theresa, Painter, Thomas H., Pempejian, Jack, Garcia-Pando, Carlos Perez, Pham, Thang, Phillips, Benjamin, Pollock, Randy, Purcell, Richard, Realmuto, Vincent, Schoolcraft, Josh, Sen, Amit, Shin, Simon, Shaw, Lucas, Soriano, Manny, Swayze, Gregg, Thingvold, Erik, Vaid, Afsheen, and Zan, Jason

Abstract

The Earth Surface Mineral Dust Source Investigation, EMIT, is planned to operate from the International Space Station starting no earlier than the fall of 2021. EMIT will use visible to short wavelength infrared imaging spectroscopy to determine the mineral composition of the arid land dust source regions of the Earth to advance our knowledge of the radiative forcing effect of these aerosols. Mineral dust emitted into the atmosphere under high wind conditions is an element of the Earth system with many impacts to the Earth's energy balance, atmosphere, surface, and oceans. The Earth's mineral dust cycle with source, transport, and deposition phases are studied with advanced Earth System Models. Because the chemical composition, optical and surface properties of soil particles vary strongly with the mineral composition of the source, these models require knowledge of surface soil mineral dust source composition to accurately understand dust impacts on the Earth system now and in the future. At present, compositional knowledge of the Earth's mineral dust source regions from existing data sets is uncertain as a result of limited measurements. EMIT will use spectroscopically-derived surface mineral composition to update the prescribed boundary conditions for state-of-the-art Earth System Models. The EMIT-initialized models will be used to investigate the impact of direct radiative forcing in the Earth system that depends strongly on the composition of the mineral dust aerosols emitted into the atmosphere. These new measurements and related products will be used to address the EMIT science objectives and made available to the science community for additional investigations. An overview of the EMIT science, development, and mission is presented in this paper.

Published

2020

8. The Earth surface mineral dust source investigation: An Earth Science imaging spectroscopy mission

Author

Barcelona Supercomputing Center, Green, Robert O., Mahowald, Natalie, Ung, Charlene, Thompson, David R., Bator, Lori, Bennet, Matthew, Bernas, Michael, Blackway, Natalie, Bradley, Christine, Cha, Jeff, Clark, Pamela, Clark, Roger, Cloud, Deborah, Diaz, Ernesto, Dor, Eyal Ben, Duren, Riley, Eastwood, Michael, Ehlmann, Bethany L., Fuentes, Lisa, Ginoux, Paul, Gross, Johannes, He, Yutao, Kalashnikova, Olga, Kert, William, Keymeulen, Didier, Klimesh, Matt, Ku, Daniel, Kwong-Fu, Helenann, Liggett, Elliott, Li, Longlie, Lundeen, Sarah, Makowski, Maciej D., Mazer, Alan, Mouroulis, Pantazis, Oaida, Bogdan, Ortega, Alberto, Oyake, Amalaye, Nguyen, Hung, Pace, Theresa, Painter, Thomas H., Pempejian, Jack, Pérez García-Pando, Carlos, Pham, Thang, Phillips, Benjamin, Pollock, Randy, Purcell, Richard, Realmuto, Vincent, Schoolcraft, Josh, Sen, Amit, Shin, Simon, Shaw, Lucas, Soriano, Manny, Thingvold, Erik, Vaid, Afsheen, Zan, Jason, Barcelona Supercomputing Center, Green, Robert O., Mahowald, Natalie, Ung, Charlene, Thompson, David R., Bator, Lori, Bennet, Matthew, Bernas, Michael, Blackway, Natalie, Bradley, Christine, Cha, Jeff, Clark, Pamela, Clark, Roger, Cloud, Deborah, Diaz, Ernesto, Dor, Eyal Ben, Duren, Riley, Eastwood, Michael, Ehlmann, Bethany L., Fuentes, Lisa, Ginoux, Paul, Gross, Johannes, He, Yutao, Kalashnikova, Olga, Kert, William, Keymeulen, Didier, Klimesh, Matt, Ku, Daniel, Kwong-Fu, Helenann, Liggett, Elliott, Li, Longlie, Lundeen, Sarah, Makowski, Maciej D., Mazer, Alan, Mouroulis, Pantazis, Oaida, Bogdan, Ortega, Alberto, Oyake, Amalaye, Nguyen, Hung, Pace, Theresa, Painter, Thomas H., Pempejian, Jack, Pérez García-Pando, Carlos, Pham, Thang, Phillips, Benjamin, Pollock, Randy, Purcell, Richard, Realmuto, Vincent, Schoolcraft, Josh, Sen, Amit, Shin, Simon, Shaw, Lucas, Soriano, Manny, Thingvold, Erik, Vaid, Afsheen, and Zan, Jason

Abstract

The Earth Surface Mineral Dust Source Investigation, EMIT, is planned to operate from the International Space Station starting no earlier than the fall of 2021. EMIT will use visible to short wavelength infrared imaging spectroscopy to determine the mineral composition of the arid land dust source regions of the Earth to advance our knowledge of the radiative forcing effect of these aerosols. Mineral dust emitted into the atmosphere under high wind conditions is an element of the Earth system with many impacts to the Earth's energy balance, atmosphere, surface, and oceans. The Earth's mineral dust cycle with source, transport, and deposition phases are studied with advanced Earth System Models. Because the chemical composition, optical and surface properties of soil particles vary strongly with the mineral composition of the source, these models require knowledge of surface soil mineral dust source composition to accurately understand dust impacts on the Earth system now and in the future. At present, compositional knowledge of the Earth's mineral dust source regions from existing data sets is uncertain as a result of limited measurements. EMIT will use spectroscopically-derived surface mineral composition to update the prescribed boundary conditions for state-of-the-art Earth System Models. The EMIT-initialized models will be used to investigate the impact of direct radiative forcing in the Earth system that depends strongly on the composition of the mineral dust aerosols emitted into the atmosphere. These new measurements and related products will be used to address the EMIT science objectives and made available to the science community for additional investigations. An overview of the EMIT science, development, and mission is presented in this paper., The authors gratefully acknowledge NASA and the Earth System Science Pathfinder program office as well as the broad set of contributors to the EMIT mission. A portion of this work was carried out at the Jet Propulsion Laboratory / California Institute of Technology, Pasadena, California, undercontract with the National Aeronautics and Space Administration., Peer Reviewed, Postprint (author's final draft)

Published

2020

9. The Earth Surface Mineral Dust Source Investigation: An Earth Science Imaging Spectroscopy Mission

Author

Green, Robert O., primary, Mahowald, Natalie, additional, Ung, Charlene, additional, Thompson, David R., additional, Bator, Lori, additional, Bennet, Matthew, additional, Bernas, Michael, additional, Blackway, Natalie, additional, Bradley, Christine, additional, Cha, Jeff, additional, Clark, Pamela, additional, Clark, Roger, additional, Cloud, Deborah, additional, Diaz, Ernesto, additional, Ben Dor, Eyal, additional, Duren, Riley, additional, Eastwood, Michael, additional, Ehlmann, Bethany L., additional, Fuentes, Lisa, additional, Ginoux, Paul, additional, Gross, Johannes, additional, He, Yutao, additional, Kalashnikova, Olga, additional, Kert, William, additional, Keymeulen, Didier, additional, Klimesh, Matt, additional, Ku, Daniel, additional, Kwong-Fu, Helenann, additional, Liggett, Elliott, additional, Li, Longlie, additional, Lundeen, Sarah, additional, Makowski, Maciej D., additional, Mazer, Alan, additional, Miller, Ron, additional, Mouroulis, Pantazis, additional, Oaida, Bogdan, additional, Okin, Greg S., additional, Ortega, Alberto, additional, Oyake, Amalaye, additional, Nguyen, Hung, additional, Pace, Theresa, additional, Painter, Thomas H., additional, Pempejian, Jack, additional, Garcia-Pando, Carlos Perez, additional, Pham, Thang, additional, Phillips, Benjamin, additional, Pollock, Randy, additional, Purcell, Richard, additional, Realmuto, Vincent, additional, Schoolcraft, Josh, additional, Sen, Amit, additional, Shin, Simon, additional, Shaw, Lucas, additional, Soriano, Manny, additional, Swayze, Gregg, additional, Thingvold, Erik, additional, Vaid, Afsheen, additional, and Zan, Jason, additional

Published

2020