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    dct:description """<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Strict//EN"
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<p>The objective of this work is to advance the technology readiness
  level (TRL) of lidar system to enable global Methane (CH<sub>4</sub>)
  and water vapor (H<sub>2</sub>O) measurements with sufficient
  coverage, sensitivity, and precision to address pressing science
  questions for climate-carbon interaction.  Methane (CH<sub>4</sub>) is
  the second most important anthropogenic greenhouse gas with
  approximately 25 times the radiative forcing of CO<sub>2</sub> per
  molecule.  Natural sources of CH<sub>4</sub> are dominated by wetland
  emissions in the tropics and Arctic and sub-Arctic boreal regions,
  with additional contributions from termites, ruminants, ocean biology,
  and a geological source of unknown significance. Natural sources
  account for about one-third of the emission total. The wetland source
  is particularly variable, linked to temperature, precipitation, and
  surface hydrological changes. Better characterization of the wetland
  source clearly requires reliable CH<sub>4</sub> measurements in the
  often-cloudy tropics and over partially inundated land surfaces and
  open water. Another important science question is in the potential
  release of large amounts of stored organic carbon as CH<sub>4</sub>
  and CO<sub>2</sub> from thawing Arctic permafrost soils, which is
  cause for concern as a rapid, positive greenhouse gas/climate
  feedback.  In addition, large but greatly uncertain amounts of
  CH<sub>4</sub> are sequestered as gas hydrates in shallow oceans and
  permafrost soils, which are also subject to potential rapid release.
  Although these boreal, phase-change driven sources are not yet
  estimated to be large, their potential magnitude and rapid growth
  dictate that measurement systems need to be put in place for early
  detection.  Because CH<sub>4</sub> fluxes, as well as chemical loss,
  are tightly coupled to hydrology, coordinated measurement of both
  CH<sub>4</sub> and H<sub>2</sub>O are highly desired. Precise,
  seasonal measurements with coverage at high latitudes (i.e., in low
  sun to dark conditions) are required.  Our proposed laser remote
  sensing technology will be a key step in fostering measurements of
  CH<sub>4</sub> and H<sub>2</sub>O with sufficient coverage, sampling,
  and precision to address major science questions.</p>
<p>Our proposed laser remote sensing technology will be a key step in
  fostering measurements of CH<sub>4</sub> and H<sub>2</sub>O with
  sufficient coverage, sampling, and precision to address these and
  other science issues. The benefit to future Earth Science missions is
  that the proposed technology enables global CH<sub>4</sub>
  measurements to be made where they are really needed: in the absence
  of sunlight (i.e., at night and at high latitudes in all seasons), in
  the presence of scattered or optically thin clouds and aerosols, over
  land and water surfaces, and with higher accuracy and precision than
  currently available. These qualities are precisely those that make the
  corresponding H<sub>2</sub>O measurements a valuable addition to the
  current operational suite for weather and climate analysis.  The
  measurements will help satisfy the critical scientific need to
  understand the behavior of greenhouse gases as they contribute to
  climate change as well as to meet pressing national needs for
  development of a national carbon monitoring system serving science,
  policy-makers, and stakeholders.</p>
<p>The end goal of the project would be to demonstrate the readiness of
  the a CH<sub>4</sub> trace gas lidar instrument for space flight. The
  target wavelengths and energies are ~1.65 µm and energy is ~500 µJ. 
  The specific objectives of this project are to:</p>
<ol>
  <li>Improve the tunability architecture of the seed laser(s) using two
    different designs.<ol>
      <li>The first design uses a DBR laser at 1651 nm to be delivered
        under an STMD Game Changing Technology program.</li>
      <li>The second design uses a novel approach: single or dual
        sideband (SSB/DSB) tuning. It has the potential to significantly
        simplify the seed laser design and uses existing DFB lasers.</li></ol></li>
  <li>Demonstrate 500 µJ in Er:YGG/Er:YAG with narrow linewidth.</li>
  <li>Reduce the size and complexity of the existing OPO</li>
  <li>Use the tunable seed from objective 1 with the OPO and Er:YAG from
    objectives 2 and 3  to demonstrate open path CH<sub>4</sub>
    measurements and correlate them with an in-situ calibrated
    instrument (Picarro in-situ CH<sub>4</sub> analyzer).</li></ol>""" ;
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    dct:issued "2025-12-02T10:47:58.162827"^^xsd:dateTime ;
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    dct:publisher <https://data.amerigeoss.org/organization/727dbdd5-3f98-4ac0-9d28-5e344558139b> ;
    dct:title "Methane Lidar Transmitter Development for Space" ;
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