Role of Sample Return in Addressing Major Questions in Planetary Sciences
portes grátis
Role of Sample Return in Addressing Major Questions in Planetary Sciences
Marhas, Kuljeet Kaur; Wadhwa, Meenakshi; Lin, Yangting; Russell, Sara; Anand, Mahesh; Tachibana, Shogo
Springer
11/2020
503
Dura
Inglês
9789402420746
15 a 20 dias
1068
Descrição não disponível.
Preface.- Accretion of the Earth - Missing Components?.-Oxygen Isotopes and Sampling of the Solar System.-Revolutionizing our Understanding of the Solar System via Sample Return from Mercury.- What is the oxygen isotope composition of Venus? The scientific case for sample return from Earth's "sister" planet.- Constraining the evolutionary history of the Moon and the inner Solar System: A case for new returned lunar samples.- The non-carbonaceous-carbonaceous meteorite dichotomy.- Exploring the bimodal Solar System via sample return from the main asteroid belt: The case for revisiting Ceres.- Concepts of the small body sample return missions - The 1st 10 Ma year evolution of the solar system.- Organic matter in the Solar System - implications for future on-site and sample return missions.- The Importance of Phobos Sample Return for Understanding the Mars-moon System.- Exploring Mars with Returned Samples.- Sample collection and return from Mars: Optimising sample collection based on the microbial ecology of terrestrial volcanic environments.- Concerns of organic contamination for sample return space missions.- Advanced Curation of Astromaterials for Planetary Science.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
sample return missions;extraterrestrial samples;curation methodologies;Solar System evolution;Solar System origins;sample body return;Earth accretion;Solar System oxygen isotopes;inner Solar System history;non-carbonaceous meteorite;carbonaceous meteorite;solar system organic matter;organic contamination sample return
Preface.- Accretion of the Earth - Missing Components?.-Oxygen Isotopes and Sampling of the Solar System.-Revolutionizing our Understanding of the Solar System via Sample Return from Mercury.- What is the oxygen isotope composition of Venus? The scientific case for sample return from Earth's "sister" planet.- Constraining the evolutionary history of the Moon and the inner Solar System: A case for new returned lunar samples.- The non-carbonaceous-carbonaceous meteorite dichotomy.- Exploring the bimodal Solar System via sample return from the main asteroid belt: The case for revisiting Ceres.- Concepts of the small body sample return missions - The 1st 10 Ma year evolution of the solar system.- Organic matter in the Solar System - implications for future on-site and sample return missions.- The Importance of Phobos Sample Return for Understanding the Mars-moon System.- Exploring Mars with Returned Samples.- Sample collection and return from Mars: Optimising sample collection based on the microbial ecology of terrestrial volcanic environments.- Concerns of organic contamination for sample return space missions.- Advanced Curation of Astromaterials for Planetary Science.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
sample return missions;extraterrestrial samples;curation methodologies;Solar System evolution;Solar System origins;sample body return;Earth accretion;Solar System oxygen isotopes;inner Solar System history;non-carbonaceous meteorite;carbonaceous meteorite;solar system organic matter;organic contamination sample return
