Add to ORKGA number of new instrument capabilities are currently in maturation for future in situ use on planetary science missions. Moving beyond the impressive in situ instrumentation already operating in planetary environments beyond Earth will enable the next step in scientific discovery. The approach for developing beyond current instrumentation requires a careful assessment of science-driven capability advancement. To this end, two examples of instrument technology development efforts that are leading to new and important analytical capabilities for in situ planetary science will be discussed: (1) an instrument prototype enabling the interface between liquid separation techniques and laser desorption/ionization mass spectrometry and (2) an addre...
Our Galaxy is vast and awe-inspiring. The stars, planets, and our sun capture our imagination as chi...
Our Galaxy is vast and awe-inspiring. The stars, planets, and our sun capture our imagination as chi...
Future surface missions to Mars and other planetary bodies will benefit from continued advances in m...
International audienceOver the next few decades, top-level planetary mission objectives will pivot t...
International audienceOver the next few decades, top-level planetary mission objectives will pivot t...
NASA's planetary exploration strategy is primarily targeted to the detection of extant or extin...
We are implementing nano- and micro-technologies to develop a miniaturized electron impact ionizatio...
A mass spectrometer system designed to measure chemical composition of gaseous, liquid, or solid sam...
A mass spectrometer system designed to measure chemical composition of gaseous, liquid, or solid sam...
In order to understand the origin and distribution of the biogenic elements and their compounds in t...
The field of Nanotechnology is well funded worldwide and innovations applicable to Solar System Expl...
NASA Glenn Research Center is presently developing and applying a range of sensor and electronic tec...
Electrochemical sensors, especially ion-selective electrodes, are ideally suited for analyses of ext...
Author Institution: JET PROPULSION LABORATORY, CALIFORNIA INSTITUTE OF TECHNOLOGY, PASADENA CALIFORN...
This thesis describes the activities undertaken to improve the performance of three miniature mass s...
Our Galaxy is vast and awe-inspiring. The stars, planets, and our sun capture our imagination as chi...
Our Galaxy is vast and awe-inspiring. The stars, planets, and our sun capture our imagination as chi...
Future surface missions to Mars and other planetary bodies will benefit from continued advances in m...
International audienceOver the next few decades, top-level planetary mission objectives will pivot t...
International audienceOver the next few decades, top-level planetary mission objectives will pivot t...
NASA's planetary exploration strategy is primarily targeted to the detection of extant or extin...
We are implementing nano- and micro-technologies to develop a miniaturized electron impact ionizatio...
A mass spectrometer system designed to measure chemical composition of gaseous, liquid, or solid sam...
A mass spectrometer system designed to measure chemical composition of gaseous, liquid, or solid sam...
In order to understand the origin and distribution of the biogenic elements and their compounds in t...
The field of Nanotechnology is well funded worldwide and innovations applicable to Solar System Expl...
NASA Glenn Research Center is presently developing and applying a range of sensor and electronic tec...
Electrochemical sensors, especially ion-selective electrodes, are ideally suited for analyses of ext...
Author Institution: JET PROPULSION LABORATORY, CALIFORNIA INSTITUTE OF TECHNOLOGY, PASADENA CALIFORN...
This thesis describes the activities undertaken to improve the performance of three miniature mass s...
Our Galaxy is vast and awe-inspiring. The stars, planets, and our sun capture our imagination as chi...
Our Galaxy is vast and awe-inspiring. The stars, planets, and our sun capture our imagination as chi...
Future surface missions to Mars and other planetary bodies will benefit from continued advances in m...