The Thermal and Electrical Conductivity Probe (TECP) is a component of the Microscopy, Electrochemistry, and Conductivity Analyzer (MECA) payload on the Phoenix Lander. TECP will measure the temperature, thermal conductivity and volumetric heat capacity of the regolith. It will also detect and quantify the population of mobile H2O molecules in the regolith, if any, throughout the polar summer, by measuring the electrical conductivity of the regolith, as well as the dielectric permittivity. In the vapor phase, TECP is capable of measuring the atmospheric H2O vapor abundance, as well as augment the wind velocity measurements from the meteorology instrumentation. TECP is mounted near the end of the 2.3 m Robotic Arm, and can be placed either i...
The Mars Phoenix Scout Mission with its diverse instrument suite successfully examined several soils...
Two recalibrated sets of Phoenix (PHX) near-surface TECP air humidity measurements were compared wit...
AbstractThe thermo-mechanical properties of planetary surface and subsurface layers control to a hig...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/95234/1/jgre2464.pd
A new calibration function for the humidity sensor in the Thermal and Electrical Conductivity Probe ...
The original calibration function of the R(sub H) sensor on the Phoenix Thermal and Electrical Condu...
The original calibration function of the RH sensor on the Phoenix mission's Thermal and Electrical C...
The Phoenix spacecraft that was launched to Mars in August 2007 landed safely on the Martian norther...
As shown by the Phoenix Mars Lander's Thermal and Electrical Conductivity Probe (TECP), contact meas...
In situ measurements of relative humidity (RH) on Mars have only been performed by the Phoenix (PHX)...
We present our recalibration of Phoenix's humidity sensor. This recalibration was conducted with a c...
The Phoenix Mars Lander Robotic Arm (RA) has operated for over 150 sols since the Lander touched dow...
NASA’s Phoenix mission allowed for investigations of Martian diurnal water vapor cycles through the ...
The Mars Phoenix Scout Lander mission in 2008 examined the history of water, searched for organics, ...
The thermo-mechanical properties of planetary surface and subsurface layers control to a high extent...
The Mars Phoenix Scout Mission with its diverse instrument suite successfully examined several soils...
Two recalibrated sets of Phoenix (PHX) near-surface TECP air humidity measurements were compared wit...
AbstractThe thermo-mechanical properties of planetary surface and subsurface layers control to a hig...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/95234/1/jgre2464.pd
A new calibration function for the humidity sensor in the Thermal and Electrical Conductivity Probe ...
The original calibration function of the R(sub H) sensor on the Phoenix Thermal and Electrical Condu...
The original calibration function of the RH sensor on the Phoenix mission's Thermal and Electrical C...
The Phoenix spacecraft that was launched to Mars in August 2007 landed safely on the Martian norther...
As shown by the Phoenix Mars Lander's Thermal and Electrical Conductivity Probe (TECP), contact meas...
In situ measurements of relative humidity (RH) on Mars have only been performed by the Phoenix (PHX)...
We present our recalibration of Phoenix's humidity sensor. This recalibration was conducted with a c...
The Phoenix Mars Lander Robotic Arm (RA) has operated for over 150 sols since the Lander touched dow...
NASA’s Phoenix mission allowed for investigations of Martian diurnal water vapor cycles through the ...
The Mars Phoenix Scout Lander mission in 2008 examined the history of water, searched for organics, ...
The thermo-mechanical properties of planetary surface and subsurface layers control to a high extent...
The Mars Phoenix Scout Mission with its diverse instrument suite successfully examined several soils...
Two recalibrated sets of Phoenix (PHX) near-surface TECP air humidity measurements were compared wit...
AbstractThe thermo-mechanical properties of planetary surface and subsurface layers control to a hig...