Neutral‐particle wake method for measuring the atmospheric temperature from a satellite

A method is described that would permit a satellite‐borne neutral mass spectrometer to measure the atmospheric temperature. The spectrometer examines the partial pressure variations that occur at the wake of a small rectangular baffle is swept across the entrance orifice of the spectrometer. For a given baffle size and for a mounting distance from the orifice, the depth of the resulting pressure minimum depends only on the thermal velocity or temperature of the observed species. The validity of the method can be checked by measuring the wake characteristics of more than one species and/or by employing each of several baffle sizes. The theory includes the effect of a finite orifice size, finite baffle length, and the backscattering of particles from the baffle into the orifice. It is found that a suitable baffle arrangement can be achieved that will permit the temperature to be measured over at least the range normally encountered in the thermosphere (200°–2000°K) and, depending on the sensitivity and background pressure of the spectrometer, over an altitude range of about 140–600 km.