Editing TIMED

{{Short description|American Weather Satellite}}
{{Use American English|date=November 2020}}
{{Use dmy dates|date=November 2020}}
{{Infobox spaceflight
| name              = TIMED
| names_list        = Thermosphere • Ionosphere • Mesosphere • Energetics and Dynamics
| image             = File:TIMED.jpg
| image_caption     = TIMED in low Earth orbit
| image_size        = 290px

| mission_type      = [[Ionosphere]]<br/>[[Atmospheric science]]<br/>[[Space weather|Space weather research]]
| operator          = [[NASA]]
| COSPAR_ID         = 2001-055B 
| SATCAT            = 26998
| website           = [http://www.timed.jhuapl.edu/WWW/index.php TIMED at APL]
| mission_duration  = Planned: 2 years <br/> Elapsed: {{time interval|7 December 2001 15:07|show=ymd|sep=,}}

| spacecraft        = 
| manufacturer      = [[Applied Physics Laboratory]]
| launch_mass       = {{cvt|660|kg}}
| dimensions        = 2.72 meters high<br/>11.73 meters wide<br/>1.2 meters deep
| power             = 406 watts

| launch_date       = 7 December 2001, 15:07:35 [[Coordinated Universal Time|UTC]] 
| launch_rocket     = [[Delta II]] 7920-10<br/>(Delta D289)
| launch_site       = [[Vandenberg Air Force Base|Vandenberg]], [[Vandenberg Space Launch Complex 2|SLC-2W]]
| launch_contractor =

| entered_service   = 22 January 2002
| deactivated       =

| orbit_reference   = [[Geocentric orbit]]<ref name="Trajectory">{{cite web|url=https://nssdc.gsfc.nasa.gov/nmc/spacecraft/displayTrajectory.action?id=2001-055B|title=Trajectory: TIMED 2001-055B |publisher=NASA|date=14 May 2020|access-date=23 November 2020}} {{PD-notice}}</ref>
| orbit_regime      = [[Low Earth orbit]]
| orbit_altitude    = {{cvt|625|km}}
| orbit_inclination = 74.1°
| orbit_period      = 97.3 minutes
| apsis             = gee

| programme         = '''[[Solar Terrestrial Probes program]]'''
| previous_mission  = 
| next_mission      = [[Hinode (satellite)|Hinode]]
}}

The '''TIMED (Thermosphere • Ionosphere • Mesosphere • Energetics and Dynamics)''' mission is dedicated to study the influences that [[Energetic space|energetics]] and [[Dynamics (mechanics)|dynamics]] of the [[Sun]] and humans have on the least explored and understood region of [[Atmosphere of Earth|Earth's atmosphere]] – the [[Mesosphere]] and [[Thermosphere|Lower Thermosphere]] / [[Ionosphere]] (MLTI). The mission was launched from [[Vandenberg Air Force Base]] in [[California]] on 7 December 2001 aboard a [[Delta II rocket]] [[launch vehicle]]. The project is sponsored and managed by [[NASA]], while the spacecraft was designed and assembled by the [[Applied Physics Laboratory]] at [[Johns Hopkins University]]. The mission has been extended several times, and has now collected data over an entire [[solar cycle]], which helps in its goal to differentiate the Sun's effects on the atmosphere from other effects.<ref>{{cite web|url=http://www.nasa.gov/mission_pages/sunearth/news/timed-10yrs.html|title=Ten Successful Years of Mapping the Middle Atmosphere|last=Fox|first=Karen|publisher=NASA}} {{PD-notice}}</ref> It shared its [[Delta II]] launch vehicle with the [[Jason-1]] [[oceanography]] mission.

== Atmospheric region under study ==
[[Image:Timed litho front.jpg|right|thumb|300px|TIMED Mission diagram (NASA)]]

The [[Mesosphere]], Lower [[Thermosphere]] and [[Ionosphere]] (MLTI) region of the atmosphere to be studied by TIMED is located between {{convert|60|and|180|km|mi|0}} above the Earth's surface, where energy from solar radiation is first deposited into the atmosphere. This can have profound effects on Earth's upper atmospheric regions, particularly during the peak of the Sun's 11-year solar cycle when the greatest amounts of its energy are being released. Understanding these interactions is also important for our understanding of various subjects in [[geophysics]], [[meteorology]], [[aeronomy]], and [[atmospheric science]], as [[Solar irradiance|solar radiation]] is one of the primary driving forces behind [[Tide|atmospheric tides]]. Changes in the MLT can also affect modern [[satellite]] and [[radio]] [[telecommunications]].

== Scientific instruments ==
The spacecraft payload consists of the following four main instruments:

* '''Global Ultraviolet Imager (GUVI)''', which scans cross track from horizon to horizon to measure the spatial and temporal variations of [[temperature]] and constituent [[Density|densities]] in the [[Thermosphere|lower thermosphere]], and to determine the importance of [[Atmosphere|auroral]] energy sources and [[Solar physics|solar extreme ultraviolet sources]] to the energy balance in that region.
* '''Solar Extreme ultraviolet Experiment (SEE)''', a [[spectrometer]] and a suite of [[photometer]]s designed to measure the solar soft [[X-ray]]s, [[Extreme ultraviolet|extreme-ultraviolet]] and [[Ultraviolet|far-ultraviolet]] radiation that is deposited into the MLT region.
* '''TIMED  Doppler Interferometer (TIDI)''', designed to globally measure the wind and temperature profiles of the MLT region.
* '''Sounding of the Atmosphere using Broadband Emission Radiometry (SABER)''', multichannel radiometer designed to measure heat emitted by the atmosphere over a broad altitude and spectral range, as well as global temperature profiles and sources of atmospheric cooling.

The data collected by the satellite's instruments are made freely available to the public.<ref>{{cite web|title=TIMED SDS Data Product Downloads|publisher=Johns Hopkins University Applied Physics Laboratory |url=http://www.timed.jhuapl.edu/WWW/scripts/mdc_downloads.pl|access-date=15 September 2020}}</ref>

== Specifications ==
{{citation needed|date=November 2020}}
* Mass: 660 kilograms
* Dimensions:
** 2.72 meters high
** 1.61 meters wide (launch configuration)
** 11.73 meters wide (solar arrays deployed)
** 1.2 meters deep
* Power consumption: 406 watts
* Data downlink: 4 megabits per second
* Memory: 5 gigabits
* Control and data handling processor: [[Mongoose-V]]
* Attitude:
** Control - Within 0.50°
** Knowledge - Within 0.03°
** Processor: [[RTX2010]]
* Total mission cost:
** Spacecraft: US$195 million {{citation needed|date=November 2020}} <!-- does it include launch cost --->
** Ground operations: US$42 million

== Satellite operations ==
TIMED experienced minor problems with [[Spacecraft attitude control|attitude control]] when, after launch, the [[magnetorquers]] failed to slow the spacecraft's spin as intended. An engineer installing the magnetorquers had mistakenly recorded the reverse of their actual polarities, which generated a sign error in the flight software. The problem was fixed by temporarily disabling the orbiter's [[magnetometer|magnetic field sensor]] and uploading a software patch to fix the sign error.<ref name="Harland">{{cite book|last1=Harland|first1=David M.|last2=Lorenz|first2=Ralph D.|title=Space Systems Failures: Disasters and Rescues of Satellites, Rockets, and Space Probes|publisher=Springer|date=2006|location=Berlin|pages=214–215}}</ref> In a separate incident, another software update fixed a problem caused by faulty testing of the [[Sun sensor]]s. After these corrections, the attitude control system functioned as intended.<ref name="Harland"/>

== Kosmos 2221 conjunction ==
At approximately 06:30 UTC on 28 February 2024, TIMED passed within 10 meters of the defunct [[Kosmos 2221]] satellite. As neither TIMED nor Kosmos 2221 can be maneuvered, the conjunction was unavoidable. LeoLabs, a satellite tracking company, had estimated a [[satellite collision]] probability of as high as 8% prior to the encounter. A collision between the two satellites, both traveling at [[hypervelocity]] speeds relative to each other, was projected to generate between 2,500 and 7,500 fragments of [[space debris]], a figure potentially exceeding that of the [[2009 satellite collision]] between [[Iridium 33]] and [[Kosmos 2251]]. This close miss was particularly concerning to NASA, which highlighted the event at the 39th [[Space Symposium]] in [[Colorado Springs, Colorado|Colorado Springs]] in a broader speech on NASA's new [[space sustainability]] strategy plan.<ref>{{cite web |last=Foust |first=Jeff |url=https://www.thespacereview.com/article/4780/1 |title=NASA's strategy for space sustainability |work=[[The Space Review]] |date=22 April 2024 |access-date=26 April 2024}}</ref>

== Scientific results ==
<!-- === Composition of the upper atmosphere === --->
TIMED has improved scientific understanding of long-term trends in the upper atmosphere. The SABER instrument has collected a continuous record of water vapor and carbon dioxide levels in the stratosphere and mesosphere.<ref>Yue 2019, p. 13452.</ref><ref>Yue 2015, p. 7195.</ref>

SABER is able to collect 1,500 water vapor measurements per day, a vast improvement from previous satellites and ground-based observations.<ref>Yue 2019, p. 13458.</ref> SABER had a flaw in its [[optical filter]] that caused it to overestimate water vapor levels; this error was discovered and the data were corrected.<ref>Rong 2019, p. 3-4.</ref> Based on the corrected data, SABER found that between 2002 and 2018, water vapor levels in the lower stratosphere were increasing at an average rate of 0.25 ppmv (around 5%) per decade, and in the upper stratosphere and mesosphere, water vapor levels were increasing at an average rate of 0.1-0.2 ppmv (around 2-3%) per decade.<ref>Yue 2019, p. 13456.</ref> Growth in methane levels is thought to be partially responsible for the growth in water vapor levels, as methane oxidizes into carbon dioxide and water vapor, but changes driven by the solar cycle may also be responsible.<ref>Yue 2019, pp. 13456, 13458.</ref>

SABER has also monitored carbon dioxide levels in the upper atmosphere. The instrument found that carbon dioxide levels in the upper atmosphere are increasing: at an altitude of {{convert|110|km|mi}}, {{CO2}} levels were rising at an average rate of 12% per decade.<ref>Yue 2015, p. 7197.</ref>  This rate is faster than what has been predicted by climate models, and suggests that there is more vertical mixing of {{CO2}} than previously thought.<ref>Yue 2015, p. 7198.</ref>

By collecting upper atmosphere data, TIMED assists the modeling of environmental impacts. Water vapor and carbon dioxide are greenhouse gases and their growth in the upper atmosphere must be factored into climate models. Additionally, upper atmosphere water vapor contributes to ozone depletion.<ref>Yue 2019, p. 13459.</ref>

<!-- === Upper atmosphere dynamics ===
* https://www.sciencedirect.com/science/article/abs/pii/S1364682605002518 - atmospheric tides
-->
<!-- === Space weather ===
*https://agupubs.onlinelibrary.wiley.com/doi/full/10.1029/2003JA009918 - monitoring aurorae and space weather
*https://agupubs.onlinelibrary.wiley.com/doi/full/10.1002/2017JA024314 - refining the Global Airglow model
-->

== Instrument teams ==
=== United States ===
{{div col}}
* [[University of Alaska Fairbanks|University of Alaska]], [[Fairbanks, Alaska]]
* [[University of California, Berkeley|University of California]], [[Berkeley, California]]
* [[Jet Propulsion Laboratory]], [[Pasadena, California]]
* [[University of Colorado at Boulder|University of Colorado]], [[Boulder, Colorado]]
* [[National Center for Atmospheric Research]], Boulder, Colorado
* [[National Oceanic and Atmospheric Administration]], Boulder, Colorado
* [[Johns Hopkins University Applied Physics Laboratory]], [[Laurel, Maryland]]
* [[Air Force Research Laboratory]], [[Hanscom Air Force Base]], [[Massachusetts]]
* [[Stewart Radiance Laboratory]], [[Bedford, Massachusetts]]
* [[University of Michigan]], [[Ann Arbor, Michigan]]
* [[Southwest Research Institute]], [[San Antonio, Texas]]
* [[Utah State University]], [[Logan, Utah]]
* [[Hampton University]], [[Hampton, Virginia]]
* [[Computational Physics, Inc.]], [[Fairfax, Virginia]]
* [[Naval Research Laboratory]], [[Washington, D.C.]]
* [[NASA Langley Research Center]], Hampton, Virginia
* [[G&A Technical Software Inc.]], Hampton, Virginia

=== International ===
* [[Hovemere Limited]], [[Kent]], England, United Kingdom
* [[British Antarctic Survey]], [[Cambridge]], England, United Kingdom
* [[CREES-York University]], [[Toronto]], Ontario, Canada
* [[Astrophysical Institute of Andalucia]] (IAA), [[Granada]], Spain
* [[Rostock University]], [[Rostock]], Germany
{{div col end}}

== See also ==
{{Portal|Spaceflight}}
* [[Upper Atmosphere Research Satellite]], 1991-2005

== References ==
{{reflist|2}}

== Further reading ==
* {{cite journal|last1=Rong|first1=Pingping|last2=Russell III|first2=James M.|last3=Marshall|first3=Benjamin T.|last4=Gordley|first4=Larry L.|last5=Mlynczak|first5=Martin G.|last6=Walker|first6=Kaley A.
|title=Validation of Water Vapor Measured by SABER on the TIMED Satellite|journal=Journal of Atmospheric and Solar-Terrestrial Physics|volume=194|date=31 July 2019|page=105099
|url=https://www.sciencedirect.com/science/article/abs/pii/S1364682619302068|doi=10.1016/j.jastp.2019.105099|bibcode=2019JASTP.19405099R|s2cid=201260453|access-date=15 September 2020|url-access=subscription}}

* {{cite journal|last1=Yue|first1=Jia|last2=Russell III|first2=James|last3=Jian|first3=Yongxiao|last4=Rezac|first4=Ladislav|last6=López-Puertas|first6=Manuel|last5=Garcia|first5=Rolando|last7=Mlynczak
|first7= Martin G.|title=Increasing Carbon Dioxide Concentration in the Upper Atmosphere Observed by SABER|journal=Geophysical Research Letters|volume=42|issue=17|pages=7194–7199|publisher=American Geophysical Union|date=16 September 2015|doi=10.1002/2015GL064696|bibcode=2015GeoRL..42.7194Y|s2cid=102423229 |doi-access=free}}

* {{cite journal|last1=Yue|first1=Jia|last2=Russell III|first2=James|last3=Gan|first3=Quan|last4=Wang|first4=Tao|last5=Rong|first5=Pingping|last6=Garcia|first6=Rolando|last7=Mlynczak|first7=Martin |title=Increasing Water Vapor in the Stratosphere and Mesosphere After 2002|journal=Geophysical Research Letters|volume=46|issue=22|pages=13452–13460|publisher=American Geophysical Union|date=9 November 2019
|url=https://agupubs.onlinelibrary.wiley.com/doi/10.1029/2019GL084973|doi=10.1029/2019GL084973|bibcode=2019GeoRL..4613452Y|s2cid=210607942|access-date=15 September 2020|url-access=subscription}}

== External links ==
* [http://www.timed.jhuapl.edu/ TIMED mission page at JHU/APL]
* [https://web.archive.org/web/20041211183744/http://stp.gsfc.nasa.gov/missions/timed/timed.htm TIMED mission page at NASA GSFC]
* [http://lasp.colorado.edu/home/see Solar EUV Experiment (SEE) page at the Laboratory for Atmospheric and Space Physics]

{{Orbital launches in 2001}}

[[Category:Earth observation satellites of the United States]]
[[Category:NASA satellites]]
[[Category:University of Colorado Boulder]]
[[Category:Ionosphere]]
[[Category:Spacecraft launched in 2001]]
[[Category:Spacecraft launched by Delta II rockets]]