IDL Francis A. Cucinotta SA, Radiobiology, Radiation and Why They Matter for Space Research and Exploration AEDT 07:15 - 08:00 and AEDT 18:15 – 19:00
BLOCK 1 Virtual Scientific Sessions AEDT 08:00 - 11:00 and BLOCK 2 AEDT 19:00 – 22:00
IDL Francis A. Cucinotta SA, Radiobiology, Radiation and Why They Matter for Space Research and Exploration AEDT 07:15 - 08:00 and AEDT 18:15 – 19:00
BLOCK 1 Virtual Scientific Sessions AEDT 08:00 - 11:00 and BLOCK 2 AEDT 19:00 – 22:00

Friday 29 January 2021

Block 1

AM

Block 2

PM

PSD.1
Satellite Dynamics - new Developments and Challenges for Earth and Solar System Sciences
PSD.1
Satellite Dynamics - new Developments and Challenges for Earth and Solar System Sciences
G0.1
Gravitational Effects on Physico-Chemical Processes
G0.1
Gravitational Effects on Physico-Chemical Processes
PCB.1
Capacity Building
PCB.1
Capacity Building
PCB.2
Small Satellites for Capacity Building
PCB.2
Small Satellites for Capacity Building
PEX.1
Establishing a Framework for Environmental Stewardship on Celestial Bodies
PEX.1
Establishing a Framework for Environmental Stewardship on Celestial Bodies
PEX.2
A Shared Scientific Vision for Global Space Exploration
PEX.2
A Shared Scientific Vision for Global Space Exploration
PSW.7
Hands-on Education in Space Weather
PRBEM.1
Missions and Data Sets for Radiation Belt Modeling
PRBEM.1
Missions and Data Sets for Radiation Belt Modeling
PRBEM.2
Development of Global Physical, Empirical, and Data Assimilative Models of the Radiation Belt Environment
D2.1
Space Climate
B0.1
Unifying planetary system formation out of elementary building blocks: from dust, gas and ice to our Solar System and exoplanets
B0.1
Unifying planetary system formation out of elementary building blocks: from dust, gas and ice to our Solar System and exoplanets
B0.1
Unifying planetary system formation out of elementary building blocks: from dust, gas and ice to our Solar System and exoplanets
B0.1
Unifying planetary system formation out of elementary building blocks: from dust, gas and ice to our Solar System and exoplanets
B0.4
Technologies for Planetary Research
B0.4
Technologies for Planetary Research
B0.4
Technologies for Planetary Research
B0.4
Technologies for Planetary Research
B1.1
Small Body Exploration Science in the New Decade
B1.1
Small Body Exploration Science in the New Decade
B1.1
Small Body Exploration Science in the New Decade
B1.1
Small Body Exploration Science in the New Decade
B4.1
Mars Science Results
B4.1
Mars Science Results
B4.1
Mars Science Results
B4.1
Mars Science Results
B5.1
Juno at Jupiter
B5.1
Juno at Jupiter
B5.1
Juno at Jupiter
B5.1
Juno at Jupiter
PE.1
Teacher Training Workshop
PE.1
Teacher Training Workshop
PE.1
Teacher Training Workshop
PE.1
Teacher Training Workshop
E1.5
Accretion on All Scales
E1.5
Accretion on All Scales
E1.5
Accretion on All Scales
E1.5
Accretion on All Scales
E1.14
Long-term All-sky Monitoring of High Energy Transient Sources
E1.14
Long-term All-sky Monitoring of High Energy Transient Sources
E1.4
Black Hole Astrophysics: Observational Evidence and Theoretical Models
E1.4
Black Hole Astrophysics: Observational Evidence and Theoretical Models
E1.16
Origin of Cosmic Rays
E1.16
Origin of Cosmic Rays
E1.16
Origin of Cosmic Rays
E1.16
Origin of Cosmic Rays
E2.3
Driving Solar Eruptions
E2.3
Driving Solar Eruptions
E2.3
Driving Solar Eruptions
E1.13
High-energy Processes at the Galactic Center
E1.13
High-energy Processes at the Galactic Center
E1.13
High-energy Processes at the Galactic Center
E1.13
High-energy Processes at the Galactic Center
E1.1
Rapidly-rotating Neutron Stars
E1.1
Rapidly-rotating Neutron Stars
E1.1
Rapidly-rotating Neutron Stars
E1.1
Rapidly-rotating Neutron Stars
C5.1
Active Space Experiments
C5.1
Active Space Experiments
C5.1
Active Space Experiments
C4.1
Improving the Description of Hemispheric Differences in Ionospheric Models
C4.1
Improving the Description of Hemispheric Differences in Ionospheric Models
C3.3
Imaging the Planets in X-rays
C3.3
Imaging the Planets in X-rays
C2.2
Wave Coupling Processes and Consequences in the Whole Atmosphere and Ionosphere
C2.2
Wave Coupling Processes and Consequences in the Whole Atmosphere and Ionosphere
C2.2
Wave Coupling Processes and Consequences in the Whole Atmosphere and Ionosphere
C2.2
Wave Coupling Processes and Consequences in the Whole Atmosphere and Ionosphere
C1.2
The Coupled Solar Wind-Magnetosphere-Ionosphere-Thermosphere System and the Impact of Solar and Geomagnetic Storms on Geospace
C1.2
The Coupled Solar Wind-Magnetosphere-Ionosphere-Thermosphere System and the Impact of Solar and Geomagnetic Storms on Geospace
C1.2
The Coupled Solar Wind-Magnetosphere-Ionosphere-Thermosphere System and the Impact of Solar and Geomagnetic Storms on Geospace
C1.2
The Coupled Solar Wind-Magnetosphere-Ionosphere-Thermosphere System and the Impact of Solar and Geomagnetic Storms on Geospace
PSW.2
Planetary and Interplanetary Space Weather
A0.1
The Interface Between Spacecraft Instrument Technologies and the Science They Enable
A0.2
GEO
PIR.1
Near-term Exploration of the Interstellar Medium
PIR.1
Near-term Exploration of the Interstellar Medium
PIR.1
Near-term Exploration of the Interstellar Medium
PIR.1
Near-term Exploration of the Interstellar Medium
F3.5
Pre-biotic and Complex Molecules in the Universe: Observational, Laboratory, and Computational Perspectives on the Evolution of Molecular Complexity
F3.1
Chemical Evolution and Origin of Life
F3.1
Chemical Evolution and Origin of Life
F3.5
Pre-biotic and Complex Molecules in the Universe: Observational, Laboratory, and Computational Perspectives on the Evolution of Molecular Complexity
F5.1
Molecular, Cellular and Physiological Changes in Response to Spaceflight and Ground-based Analogues
F1.1
Gravity Perception and Response in Plants and Fungi: Ground and Space Studies
F1.1
Gravity Perception and Response in Plants and Fungi: Ground and Space Studies
F5.1
Molecular, Cellular and Physiological Changes in Response to Spaceflight and Ground-based Analogues
F4.2
Advanced Life Support Test Beds and Facilities
F4.1
Bioregenerative Life Support – Past–Present–Future / Outlook and Ecological Aspects
F4.1
Bioregenerative Life Support – Past–Present–Future / Outlook and Ecological Aspects
F4.2
Advanced Life Support Test Beds and Facilities
F2.4
Genetic, Epigenetic and Metabolic Changes in Spaceflight and Simulated Spaceflight Environment
F2.1
Biological Effects of Space Radiation: a Controllable Challenge for Long-term Human Space Missions
F2.1
Biological Effects of Space Radiation: a Controllable Challenge for Long-term Human Space Missions
F2.4
Genetic, Epigenetic and Metabolic Changes in Spaceflight and Simulated Spaceflight Environment

Official COSPAR 2021 Merchandise

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Space Agency Leaders’ Round Table

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COSPAR 2021 Assembly Week

See the whole weeks’ program at a glance. Commencing Friday 28th January 2021.

COSPAR 2020 Awards Extended Interviews

View the extended interview videos of all Awardees here.

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