- Why go to Mars?
- Seeking signs of habitability
- Where to look?
- Destination: Gale crater
- Rover vision
- Surface and atmospheric studies
- Curiosity's arm
- Curiosity's hand
- Chemistry and mineralogy
- SAM Instruments
- Preparing for landing
- Entry, descent & landing
- MSL Brief
- Curiosity landing simulation
Rover Environmental Monitoring Station (REMS)
The Rover Environmental Monitoring Station is Curiosity’s weather station. It has been designed to record six atmospheric parameters: wind speed/direction, pressure, relative humidity, air temperature, ground temperature, and ultraviolet radiation.
The Radiation Assessment Detector (RAD)
The Radiation Assessment Detector will determine the radiation dose for humans on the surface of Mars. It will monitor high-energy atomic and subatomic particles from the sun, from distant supernovas and from other natural sources. These particles are natural radiation that could be harmful to astronauts on a Mars mission or to any microbes near the surface of Mars.
Video on RAD measurements:
Dynamic Albedo of Neutrons (DAN)
Dynamic Albedo of Neutrons (DAN) is a detector for measuring hydrogen or ice and water near the Martian surface. DAN shoots neutrons into the ground and measures the timing and energy levels of neutrons reflected back up. The below image shows the location of the two components of the Dynamic Albedo of Neutrons instrument. The neutron generator is mounted on the right hip (visible in this view), and the detectors are on the opposite hip
If liquid or frozen water happens to be present, hydrogen atoms slow the neutrons down. In this way, some of the neutrons escaping into space have less energy and move more slowly. The detector will use this characteristic to search for subsurface ice on Mars.
The diagram below depicts the case of a neutron that does not collide with any hydrogen atoms before it reaches DAN's detector. It is detected in a characteristically short time -- about one millisecond -- after being emitted by DAN's neutron generator, and with a characteristic energy.
This next diagram illustrates the case of a neutron that does collide with hydrogen in the ground. Collisions with hydrogen nuclei -- like two billiard balls -- result in a change in energy level and a change in the time interval between when the neutron is emitted by DAN's neutron generator and when it reaches DAN's detector, compared with neutrons that do not collide with hydrogen, as in the companion diagram.
Next, let's get ready to dig!
Want to join the conversation?
- I've always wondered, what happens when a neutron collides with hydrogen, what happens? Does the hydrogen atom split apart?(3 votes)
- At0:56-1:39in the video on RAD measurements:
Are the results of RAD measurements already available? How is the data collected by Curiosity relevant for future manned missions? How harmful would the radiation dose be for humans? Life threatening? Severe? Mild? Can it be shielded during the 6 months trip? Will the findings have any impact on how future missions (e.g. Mars One) are designed?(1 vote)