UVCS MISSION LOG 
				----------------

	Date:		31 March 2008
	-----

 	Last revision:	04 April 2008 (Wu)
	--------------

	File Name: 	2008.04.02.a.log
	----------

	Compiled by:	M. Uzzo
	------------

	UVCS Activity:	Load and Start JOP 202: Origin of the Slow Wind
	--------------	and Streamer Base for 02 April 2008
			Load JOP 202: Origin of the Slow Wind and Streamer 
			Base for 02 April 2008
			Load JOP 202: Origin of the Slow Wind and Streamer 
			Base for 02 - 03 April 2008

	SOHO Activity:	
	--------------

	EOF Staff:      L. Strachan: Lead Scientist
	----------	M. Uzzo: Commander, Planner
			R. Wu

	Command file:	08.04.02.14:40:12.cmd.log

	Activity:
	---------

	1) Streamer Study OVI Observations

	Sequence: 08.03_StrObsOVI.tcl, sw = 1

	SCI_SPEC: Our primary goal is to understand the nature and origin of 
        	  the slow solar wind and its relation to coronal streamers.  
        	  We will characterize solar wind source regions from 
        	  streamers, including their boundaries and helmet tops.  
        	  Velocity measurements will be made using Doppler dimming 
        	  and correlation tracking of plasma blobs in white light.  
        	  Abundance measurements will be made both in the corona and 
        	  in the solar wind to track the origin of solar wind streams. 
        	  In situ and IPS measurements of wind speeds will be used to 
        	  map the slow wind streams from the Sun to the heliosphere.

		  We require multiple instruments in order to track the slow 
		  wind from its origin in Sun's lower atmosphere, through the 
		  corona, and out to interplanetary space.  The slow solar 
		  wind, while often associated with the streamer belt at solar 
		  minimum, most likely originates from more than one type of 
		  coronal structure.  The various instruments required have 
		  capabilities that are suited for probing the Sun in 
		  different observational regimes. Instruments with the 
		  highest time cadence are best suited for studies of 
		  intermittent sources. Spectroscopic instruments are best 
		  suited for time averaged observations of steady source 
		  regions. The strength of the spectroscopic observations is 
		  that they can tag the wind by characterizing the kinetic 
		  temperatures, outflow speeds, and abundance composition of 
		  the solar wind source regions in the corona.  Imaging 
		  instruments can provide the best constraints for the 
		  magnetic field geometry and also determine electron 
		  densities and temperatures.  The IPS instruments will 
		  provide information on the velocity, density, magnetic 
		  field, and spatial distribution of fast and slow wind in the 
		  heliosphere.  Solar wind instruments on Ulysses and other in 
		  situ spacecraft will provide the composition data to make 
		  the connections back to the Sun.

	OBS_PROG: Primary: Sensitivity
		  Sub Obj: Spectral Resolution

	SCI_OBJ:  Primary: Coronal Dynamics...Outflow Velocities
		  Sub Obj: Abundances

	OBJ:      Streamer

	CMP_NAME: JOP 202, Origin of the slow solar wind

	CMP_NUM:  7266

	Duration: start: 2008.04.02.17:11
		    end: 2008.04.02.17:28

	ONUMs = 24224 (8 exps)

	Instrument configuration:

		- Pointing:  Sun center

                - Spacecraft Roll:  0 Degrees

		- Roll:	245 Degrees (63384)

		- Mirror/Occulter:  1.7 Ro
				    1.5 mm overocculting

		- LYA Slit:   100 um
		- OVI Slit:    50 um

		- LYA GRTPOS: 100000
		- OVI GRTPOS: 164600

		- OVI MCP Voltage: 200 

		- OVI mask:   OVI_Str_Prof in slot 5

	Fits Files:

q08.04.02.17:11:10.ovi.dat

	2) Streamer Study OVI Observations

	Sequence: 08.03_StrObsOVI.tcl, sw = 0

	SCI_SPEC: Our primary goal is to understand the nature and origin of 
        	  the slow solar wind and its relation to coronal streamers.  
        	  We will characterize solar wind source regions from 
        	  streamers, including their boundaries and helmet tops.  
        	  Velocity measurements will be made using Doppler dimming 
        	  and correlation tracking of plasma blobs in white light.  
        	  Abundance measurements will be made both in the corona and 
        	  in the solar wind to track the origin of solar wind streams. 
        	  In situ and IPS measurements of wind speeds will be used to 
        	  map the slow wind streams from the Sun to the heliosphere.

		  We require multiple instruments in order to track the slow 
		  wind from its origin in Sun's lower atmosphere, through the 
		  corona, and out to interplanetary space.  The slow solar 
		  wind, while often associated with the streamer belt at solar 
		  minimum, most likely originates from more than one type of 
		  coronal structure.  The various instruments required have 
		  capabilities that are suited for probing the Sun in 
		  different observational regimes. Instruments with the 
		  highest time cadence are best suited for studies of 
		  intermittent sources. Spectroscopic instruments are best 
		  suited for time averaged observations of steady source 
		  regions. The strength of the spectroscopic observations is 
		  that they can tag the wind by characterizing the kinetic 
		  temperatures, outflow speeds, and abundance composition of 
		  the solar wind source regions in the corona.  Imaging 
		  instruments can provide the best constraints for the 
		  magnetic field geometry and also determine electron 
		  densities and temperatures.  The IPS instruments will 
		  provide information on the velocity, density, magnetic 
		  field, and spatial distribution of fast and slow wind in the 
		  heliosphere.  Solar wind instruments on Ulysses and other in 
		  situ spacecraft will provide the composition data to make 
		  the connections back to the Sun.

	OBS_PROG: Primary: Sensitivity
		  Sub Obj: Spectral Resolution

	SCI_OBJ:  Primary: Coronal Dynamics...Outflow Velocities
		  Sub Obj: Abundances

	OBJ:      Streamer

	CMP_NAME: JOP 202, Origin of the slow solar wind

	CMP_NUM:  7266

	Duration: start: 2008.04.02.17:29
		    end: 2008.04.02.18:52

	ONUMs = 24225 (40 exps) 

	Instrument configuration:

		- Pointing:  Sun center

                - Spacecraft Roll:  0 Degrees

		- Roll:	245 Degrees (63384)

		- Mirror/Occulter:  1.7 Ro
				    1.5 mm overocculting

		- LYA Slit:   100 um
		- OVI Slit:    50 um

		- LYA GRTPOS: 100000
		- OVI GRTPOS: 223500

		- OVI MCP Voltage: 200 

		- OVI mask:   OVI_Str_Prof in slot 5

	Fits Files:

q08.04.02.17:29:09.ovi.dat

	5) Streamer Study OVI Observations

	Sequence: 08.03_StrObsOVI.tcl, sw = 2

	SCI_SPEC: Our primary goal is to understand the nature and origin of 
        	  the slow solar wind and its relation to coronal streamers.  
        	  We will characterize solar wind source regions from 
        	  streamers, including their boundaries and helmet tops.  
        	  Velocity measurements will be made using Doppler dimming 
        	  and correlation tracking of plasma blobs in white light.  
        	  Abundance measurements will be made both in the corona and 
        	  in the solar wind to track the origin of solar wind streams. 
        	  In situ and IPS measurements of wind speeds will be used to 
        	  map the slow wind streams from the Sun to the heliosphere.

		  We require multiple instruments in order to track the slow 
		  wind from its origin in Sun's lower atmosphere, through the 
		  corona, and out to interplanetary space.  The slow solar 
		  wind, while often associated with the streamer belt at solar 
		  minimum, most likely originates from more than one type of 
		  coronal structure.  The various instruments required have 
		  capabilities that are suited for probing the Sun in 
		  different observational regimes. Instruments with the 
		  highest time cadence are best suited for studies of 
		  intermittent sources. Spectroscopic instruments are best 
		  suited for time averaged observations of steady source 
		  regions. The strength of the spectroscopic observations is 
		  that they can tag the wind by characterizing the kinetic 
		  temperatures, outflow speeds, and abundance composition of 
		  the solar wind source regions in the corona.  Imaging 
		  instruments can provide the best constraints for the 
		  magnetic field geometry and also determine electron 
		  densities and temperatures.  The IPS instruments will 
		  provide information on the velocity, density, magnetic 
		  field, and spatial distribution of fast and slow wind in the 
		  heliosphere.  Solar wind instruments on Ulysses and other in 
		  situ spacecraft will provide the composition data to make 
		  the connections back to the Sun.

	OBS_PROG: Primary: Sensitivity
		  Sub Obj: Spectral Resolution

	SCI_OBJ:  Primary: Coronal Dynamics...Outflow Velocities
		  Sub Obj: Abundances

	OBJ:      Streamer

	CMP_NAME: JOP 202, Origin of the slow solar wind

	CMP_NUM:  7266

	Duration: start: 2008.04.02.18:53
		    end: 2008.04.03.19:41

	ONUMs = 24226 (320 exps)
		24227 (398 exps)

	Instrument configuration:

		- Pointing:  Sun center

                - Spacecraft Roll:  0 Degrees

		- Roll:	245 Degrees (63384)

		- Mirror/Occulter:  1.7 Ro
				    1.5 mm overocculting

		- LYA Slit:   100 um
		- OVI Slit:   150 um

		- LYA GRTPOS: 100000
		- OVI GRTPOS: 232100

		- OVI MCP Voltage: 200 

		- OVI mask:   OVI_303_8x2 in slot 3

	Fits Files:

q08.04.02.18:53:24.ovi.dat
q08.04.03.05:54:44.ovi.dat

GAP between 04/03/08|10:27:59( 4659) and 04/03/08|10:29:18( 4787)
GAP between 04/03/08|19:20:34( 6676) and 04/03/08|19:22:51( 6894)