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<HSTProposal
   Phase1ID="473"
   Phase2ID="10654"
   Phase="Phase I"
   AptVersion="Version 14.0 ">
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   <!--This file is automatically generated and should not be edited by hand. Editing this file directly is at your own risk.-->
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            AptVersion="Version 14.0 "
            SubmissionCounter="1"
            SubmissionSuccessCounter="0"
            HasErrors="false"
            Cycle="14"
            IncludeSysInfo="true"
            NotificationAddress="david@eurekasci.com">
            
            <SystemInformation
               os.arch="sparc"
               os.name="SunOS"
               os.version="5.8"
               java.version="1.4.1_03"
               linux.distribution="not available"
               linux.version="not available" />
            
            <SubmissionComments>Initial submission.</SubmissionComments>
            
            <SubmissionLog>  Assigned ID: 473
----- Submission 1 (Fri Jan 21 22:37:45 GMT 2005) -----
</SubmissionLog>
            
            <DiagnosticJustification />
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   <ProposalInformation
      Category="AR"
      PureParallelProposal="false"
      Cycle="14">
      
      <Title>Absolute Spectrophotometric Calibration to 1% from the FUV through the near-IR</Title>
      
      <Abstract>We propose a significant improvement to the existing HST calibration. The current calibration is based on three primary DA white dwarf standards, GD 71, GD 153,and G 191-B2B. The standard fluxes are calculated using NLTE models, with effective temperatures and gravities that were derived from Balmer line fits using LTE models. We propose to improve the accuracy and internal consistency of the calibration by deriving corrected effective temperatures and gravities based on fitting the observed line profiles with updated NLTE models, and including the fit results from multiple STIS spectra, rather than the (usually) 1 or 2 ground-based spectra used previously. We will also determine the fluxes for 5 new, fainter primary or secondary standards, extending the standard V magnitude lower limit from 13.4 to 16.5, and extending the wavelength coverage from 0.1 to 2.5 micron. The goal is to achieve an overall flux accuracy of 1%, which will be needed, for example, for the upcoming supernova survey missions to measure the equation of state of the dark energy that is accelerating the expansion of the universe.</Abstract>
      
      <PrincipalInvestigator
         Honorific="Dr."
         FirstName="David"
         MiddleInitial="S."
         LastName="Finley"
         ESAMember="false"
         UniqueID="672">
         
         <Address
            Institution="Eureka Scientific Inc."
            USState="CA"
            Country="USA" />
      </PrincipalInvestigator>
      
      <CoInvestigator
         Honorific="Dr."
         FirstName="Ralph"
         LastName="Bohlin"
         ESAMember="false"
         UniqueID="2856"
         AdminUSPI="false"
         Contact="false">
         
         <Address
            Institution="Space Telescope Science Institute"
            USState="MD"
            Country="USA" />
      </CoInvestigator>
      
      <CoInvestigator
         Honorific="Dr."
         FirstName="Ivan"
         LastName="Hubeny"
         ESAMember="false"
         UniqueID="974"
         AdminUSPI="false"
         Contact="false">
         
         <Address
            Institution="University of Arizona"
            USState="AZ"
            Country="USA" />
      </CoInvestigator>
      
      <CoInvestigator
         Honorific="Dr."
         FirstName="Claus"
         LastName="Leitherer"
         ESAMember="false"
         UniqueID="2892"
         AdminUSPI="false"
         Contact="false">
         
         <Address
            Institution="Space Telescope Science Institute"
            USState="MD"
            Country="USA" />
      </CoInvestigator>
      
      <Questions>
         
         <Phase2Questions>
            
            <ObservingDescription />
            
            <RealtimeJustification />
            
            <CalibrationJustification />
            
            <AdditionalComments />
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      <Orbits
         ThisCyclePrimary="1"
         ThisCycleParallel="0"
         NextCyclePrimary="0"
         NextCycleParallel="0"
         AfterNextPrimary="0"
         AfterNextParallel="0"
         ThisCycle2GyroPrimary="0"
         ThisCycle2GyroParallel="0"
         NextCycle2GyroPrimary="0"
         NextCycle2GyroParallel="0"
         AfterNext2GyroPrimary="0"
         AfterNext2GyroParallel="0" />
      
      <Phase1ProposalInformation
         TotalTargets="1"
         Attachment="/home/starr/proposals/hst05/archive/proposal.pdf">
         
         <ScientificCategory>COSMOLOGY</ScientificCategory>
         
         <ScientificKeyword1
            Keyword="CALIBRATION" />
         
         <ScientificKeyword2
            Keyword="SPECTROSCOPY" />
         
         <ScientificKeyword3
            Keyword="WHITE DWARFS" />
         
         <ScientificKeyword4
            Keyword="COSMOLOGICAL PARAMETERS AND DISTANCE SCALE" />
         
         <ScientificKeyword5
            Keyword="DARK MATTER" />
         
         <ProprietaryPeriod>12</ProprietaryPeriod>
         
         <Budget>36000</Budget>
         
         <CalibProp>true</CalibProp>
         
         <SpitzerHours>0.0</SpitzerHours>
         
         <SpitzerLarge>false</SpitzerLarge>
         
         <Treasury>false</Treasury>
         
         <Legacy>false</Legacy>
         
         <Theory>false</Theory>
         
         <LargeProgram>false</LargeProgram>
      </Phase1ProposalInformation>
      
      <Phase2ProposalInformation
         PCFlag="false">
         
         <Availability>SUPPORTED</Availability>
      </Phase2ProposalInformation>
   </ProposalInformation>
   
   <Targets />
   
   <Observations />
   
   <Patterns />
   
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