<?xml version="1.0" encoding="UTF-8"?>

<HSTProposal
   Phase1ID="1360"
   Phase2ID="13245"
   Phase="Phase I"
   AptVersion="Version 21.0.1 ">
   <!--**********************************************************************************************************************-->
   <!--This file is automatically generated and should not be edited by hand. Editing this file directly is at your own risk.-->
   <!--**********************************************************************************************************************-->
   <!--APT Output Product-->
   <!---->
   <!--APT Version: Version 21.0.1 -->
   <!--Date: Fri Mar 01 02:20:39 GMT 2013-->
   
   <ToolData>
      
      <ToolDataItem
         Key="SubmissionData">
         
         <SubmissionData
            AptVersion="Version 21.0.1 "
            SubmissionCounter="1"
            SubmissionSuccessCounter="0"
            HasErrors="false"
            Cycle="21"
            IncludeSysInfo="true"
            NotificationAddress="gary@pa.uky.edu"
            AssignedID="1360">
            
            <SystemInformation
               os.arch="x86_64"
               os.name="Mac OS X"
               os.version="10.8.2"
               java.version="1.6.0_41"
               Runtime.maxMemory="5717"
               linux.distribution="not available"
               linux.version="not available"
               screens="1280x800,2048x1152" />
            
            <SubmissionComments />
            
            <SubmissionCommentsCheckSum>0</SubmissionCommentsCheckSum>
            
            <SubmissionLog>Assigned ID: 1360

----- Attempting Submission 1 (Fri Mar 01 02:20:39 GMT 2013) -----</SubmissionLog>
            
            <DiagnosticJustification />
         </SubmissionData>
      </ToolDataItem>
   </ToolData>
   
   <ProposalInformation
      Category="AR"
      PureParallelProposal="false"
      Cycle="21"
      STScIEditNumber="0"
      ProposalSize="SMALL">
      
      <Title>Reading the message in the light: understanding STIS and COS spectra,  preparing for the Webb Era</Title>
      
      <Abstract>UV spectroscopy reveals the chemical composition, star formation history, kinematic state, and excitation conditions of a vast variety of astronomical objects.  The gas producing the spectrum is usually far from equilibrium and its properties set by a host of microphysical processes.  I developed the plasma simulation code Cloudy to model just such environments.  The code is widely used across the astronomical community, with nearly 200 papers citing its documentation each year, many of these studies involving HST observations.

I request support for continued development of Cloudy with an emphasis on low-ionization regions detected in absorption in the UV, and in emission in the UV through IR.  This complements my previous Theory grant, now ending, which developed a framework for using large atomic databases and creating models of high-ionization species.  The proposed new work has several parts: A) the incorporation of recently developed theories for the formation of molecular hydrogen on grain surfaces, B) the expansion of the atomic database to low-ionization species, complementing the previous work, and C) upgrade the low-ionization atomic and molecular emission models.  

These more robust simulations of lower-ionization species formed near atomic / molecular transition regions have obvious implications for observations of intergalactic or associated absorbers. The atoms which absorb in the UV also emit in the optical / IR.  Cloudy does a full simulation of the microphysics of the gas and dust, so the IR emission is also predicted.  The work proposed here, while focusing on the UV, will, as a no-cost spinoff, improve emission models for wavelengths detected by Webb.</Abstract>
      
      <PrincipalInvestigator
         Honorific="Dr."
         FirstName="Gary"
         MiddleInitial="J."
         LastName="Ferland"
         ESAMember="false"
         UniqueID="656"
         Institution="University of Kentucky"
         Country="USA"
         State="KY"
         Contact="true" />
      
      <Questions>
         
         <Phase2Questions>
            
            <ObservingDescription />
            
            <RealtimeJustification />
            
            <CalibrationJustification />
            
            <AdditionalComments />
         </Phase2Questions>
      </Questions>
      
      <Orbits
         ThisCycle2GyroPrimary="1"
         ThisCycle2GyroParallel="0"
         NextCycle2GyroPrimary="0"
         NextCycle2GyroParallel="0"
         AfterNext2GyroPrimary="0"
         AfterNext2GyroParallel="0" />
      
      <Phase1ProposalInformation
         TotalTargets="1"
         Attachment="/Users/gary/Dropbox/FundingAgency/HST/2013/theory/draft/proposal_body_3.pdf">
         
         <ScientificCategory>QUASAR ABSORPTION LINES AND IGM</ScientificCategory>
         
         <ScientificKeyword1
            Keyword="AGN Physics" />
         
         <ScientificKeyword2
            Keyword="Damped Lyman-Alpha Absorption Systems" />
         
         <ScientificKeyword3
            Keyword="HII Regions" />
         
         <ScientificKeyword4
            Keyword="Interstellar And Intergalactic Medium" />
         
         <ScientificKeyword5
            Keyword="Intracluster Medium" />
         
         <ProprietaryPeriod>Default</ProprietaryPeriod>
         
         <Budget>Medium</Budget>
         
         <CalibProp>false</CalibProp>
         
         <UvInit>true</UvInit>
         
         <Treasury>false</Treasury>
         
         <MultiCycleTreasury>false</MultiCycleTreasury>
         
         <Theory>true</Theory>
      </Phase1ProposalInformation>
      
      <Phase2ProposalInformation
         PCFlag="false">
         
         <Availability>SUPPORTED</Availability>
      </Phase2ProposalInformation>
   </ProposalInformation>
   
   <Targets />
   
   <Observations />
   
   <Datasets />
   
   <Patterns />
   
   <Visits />
</HSTProposal>


