Английская Википедия:Aeronomy of Ice in the Mesosphere
Шаблон:Short description Шаблон:Use American English Шаблон:Use dmy dates Шаблон:Infobox spaceflight
The Aeronomy of Ice in the Mesosphere (AIM or Explorer 90) is a NASA satellite launched in 2007 to conduct a planned 26-month study of noctilucent clouds (NLCs).[1] It is the ninetieth Explorer program mission and is part of the NASA-funded Small Explorer program (SMEX).
In March 2023, NASA announced that battery power on the spacecraft had declined below the level needed to sustain operation.[2]
Mission
The scientific purpose of the Aeronomy of Ice in the Mesosphere (AIM) mission is focused on the study of polar mesospheric clouds (PMCs) that form about Шаблон:Cvt above the surface of Earth in summer and mostly in the polar regions of Earth. The overall goal is to resolve why PMCs form and why they vary. AIM expected lifetime was at least two years. AIM measures PMCs and the thermal, chemical and dynamical environment in which they form. This will allow the connection to be made between these clouds and the meteorology of the polar mesospheric summer echoes. This connection is important because a significant variability in the yearly number of noctilucent ("glow in the dark") clouds (NLCs), one manifestation of PMCs, has been suggested as an indicator of global change. The body of data collected by AIM will provide the basis for a rigorous study of PMCs that can be reliably used to study past PMC changes, present trends and their relationship to global change. In the end, AIM will provide an expanded basis for the study of long-term variability in the climate of Earth. The AIM scientific objectives will be achieved by measuring near simultaneous PMC abundances, PMC spatial distributions, cloud particle size distributions, gravity wave activity, cosmic dust influx to the atmosphere needed to study the role of these particles as nucleation sites and precise, vertical profile measurements of temperature, [[Water|Шаблон:H2O-nl]], OH, [[Methane|Шаблон:Chem2]], [[Ozone|Шаблон:Chem2]], [[Carbon dioxide|Шаблон:CO2]], NO, and aerosols. AIM carries three instruments: an infrared solar occultation differential absorption radiometer, built by the Space Dynamics Laboratory, Utah State University (Solar Occultation for Ice Experiment - SOFIE); a panoramic ultraviolet imager (Cloud Imaging and particle Size Experiment - CIPS); and, an in situ dust detector (Cosmic Dust Experiment - CDE), both designed and built by the Laboratory for Atmospheric and Space Physics, University of Colorado. Ball Aerospace & Technologies Corporation constructed the spacecraft bus and GATS, Inc., Newport News, Virginia, led the data management effort.[3][4]
First seen in 1885, two years after the powerful eruption of the Indonesian volcano Krakatoa, scientists originally thought PMC's formed from the plumes of ash propelled into the sky during that eruption. But the clouds have persisted long after the effects of Krakatoa were felt. These days, some scientists think they are caused by space dust, while others believe that modern-day PMC's are indicators of changing climate of Earth. One thing is for certain: PMC's are shaped by the meteorology of the mesosphere, which does appear to be changing.[5]
Spacecraft
The AIM satellite is a Шаблон:Cvt, Шаблон:Cvt spacecraft, powered by two solar panels, carrying three instruments:[6]
Instruments
| Illustration | Instrument Name | Abbr. | Description and scientific objective |
|---|---|---|---|
| Файл:Cde.jpg | Шаблон:Center | Шаблон:Center | The instrument records impacts from cosmic dust particles as they enter Earth's upper atmosphere. The instrument uses fourteen polyvinylidene fluoride detectors, which emit a pulse of charge when impacted by a hypervelocity dust particle (velocity Шаблон:Cvt). A measurement of the value and variability of the cosmic dust input will allow scientists to determine the role the particles have in PMC (Polar Mesospheric Cloud) formation. CDE is a nearly identical replica to the Student Dust Counter on the New Horizons mission.[7] |
| Файл:Cips-AIM.jpg | Шаблон:Center | Шаблон:Center | The instrument has four cameras positioned at different angles, which provide multiple views of the clouds from different angles and will allow a determination of the sizes of the ice particles that make up the cloud,[8] and can be used to infer gravity waves in the atmosphere.[9] |
| Файл:Sophie-AIM.jpg | Шаблон:Center | Шаблон:Center | The SOFIE uses solar occultation to measure cloud particles, temperature and atmospheric gases involved in forming the clouds. The instrument will reveal the mixture of chemicals that prompt NLC's formation, as well as the environment in which the clouds form.[10] |
Launch
On 25 April 2007, AIM was launched into a circular Шаблон:Cvt Sun-synchronous orbit by a Pegasus-XL launch vehicle, which was air-launched from the Lockheed L-1011 Stargazer aircraft operated by Orbital Sciences Corporation (OSC).[11]
See also
References
External links
- AIM home
- SOFIE Instrument and science description, view or download data
- AIM Mission Profile by NASA
- Taking AIM at Night-Shining Clouds: 10 Years, 10 Science Highlights
Шаблон:Explorer program Шаблон:Orbital launches in 2007
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