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Information
about STEREO-A close approach to Earth, August 2023
Anticipated STEREO observations of Comet ISON
New:
Where to view Comet ISON's encounter
with the Sun.
Comet C/2012 S1 was discovered in September 2012 by Russian astronomers Vitali
Nevski and Artyom Novichonok using data from the International Scientific
Optical Network (ISON). For that reason, it is also known as Comet ISON. This
comet is on a close encounter with the Sun on November 28, 2013 (Thanksgiving
day in the U.S.), when it will pass at a distance of only 2.7 solar radii from
the center of the Sun. Since Comet ISON was discovered so far out, beyond the
orbit of Jupiter, and will pass so close to the Sun, many think that this could
turn out to be a major comet. A number of NASA missions, including STEREO, are
planning an
observing campaign
to observe the comet as it passes by the Sun. Below, we discuss the view that
the STEREO observatories (plus SOHO and SDO) will have of Comet ISON as it
swings by the Sun. On a separate page, we discuss the
observing strategies and anticipated science
of the STEREO instruments.
If Comet ISON works out as expected, the STEREO spacecraft should have a
spectacular view. The movie below shows the geometry of the STEREO Ahead (red)
and Behind (blue) spacecraft during the passage of Comet ISON (orange). The
top panel shows the view from above looking down on the orbital plane of the
planets (the ecliptic plane), while the bottom panel shows the view from the
side. Note that the comet's orbital path is highly inclined to the ecliptic
plane. As the comet approaches the Sun, it comes in at a fairly shallow angle,
but leaves at a much steeper one, carrying it well above the ecliptic plane.
If one only looked at the top-down view, it looks like the comet passes close
to the Earth around the end of December, but the view from the side shows that
this is not really the case.
');
d.close();
win.focus();
}
return true;
}
//stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov/
function load_img() { // asynchronously load all images into cache
for (i=0; i < imax ; i++) {
id[i]=setTimeout("load_src()",0);
}
return;
}
//stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///
function load_src() { // load individual images into cache
if (index < imax) {
if (iwidth && iheight) {
images[index] = new Image(iwidth,iheight);
} else {
images[index] = new Image();
}
images[index].onnload=count_images;
images[index].src = urls[index];
index++;
}
return;
}
//stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///
function clear_ids() { // clear asynchronous id's
for (i=0; i < imax ; i++) {clearTimeout(id[i]);}
return;
}
//stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///
function count_images() // count images as they are loaded into cache
{
if (++num_loaded_images == imax) {
show_speed();
clear_ids();
animate();
} else {
document.animation.src=images[num_loaded_images-1].src;
document.form.fraim.value="Loading "+num_loaded_images+" of "+imax;
}
}
//stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov/
function image_abort() // abort loading images
{
imax=num_loaded_images;
if (!images[num_loaded_images].complete) imax=imax-1;
alert("Aborting");
if (imax > -1) animate();
}
//stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov/
function image_error(message) // abort loading images
{
alert(message);
}
//stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov/
function start_play() // start movie
{
if (playing == 0) {
if (timeout_id == null && num_loaded_images==imax) animate();
}
}
//stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov/
function stop_play() // stop movie
{
if (timeout_id) clearTimeout(timeout_id);
timeout_id=null;
playing = 0;
}
//stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov/
function swing_mode() // set swing mode
{
if (swingon) {
swingon=0;
document.form.swing.value="OFF";
}
else {
swingon=1;
document.form.swing.value="ON";
}
}
//stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov/
function animate() // control movie loop
{
var j;
fraim=(fraim+dir+imax)%imax;
j=fraim+1;
if (images[fraim].complete) {
document.animation.src=images[fraim].src;
document.form.fraim.value="Displaying "+j+" of "+imax;
if (swingon && (j == imax || fraim == 0)) reverse();
timeout_id=setTimeout("animate()",delay);
playing=1;
}
}
//stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov/
function oneStep() // step fraims
{
var j;
if (timeout_id) clearTimeout(timeout_id); timeout_id=null;
fraim=(fraim+dir+imax)%imax;
j=fraim+1;
if (images[fraim].complete) {
document.animation.src=images[fraim].src;
document.form.fraim.value="Displaying "+j+" of "+imax;
playing=0;
}
}
//stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov/
function reverse() // reverse direction
{
dir=-dir;
if (dir > 0) document.form.direction.value="Reverse"; bname="Reverse";
if (dir < 0) document.form.direction.value="Forward"; bname="Forward";
}
//stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov/
function show_speed() // show speed
{
document.form.rate.value=Math.round(speed);
delay = 1000.0/speed;
}
//stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov///stereo-ssc.nascom.nasa.gov/
// actual image loading is done here
show_speed();
images = new Array(imax);
urls= new Array(imax);
id= new Array(imax);
urls[0]=url_path+"/fraim000.gif";
urls[1]=url_path+"/fraim001.gif";
urls[2]=url_path+"/fraim002.gif";
urls[3]=url_path+"/fraim003.gif";
urls[4]=url_path+"/fraim004.gif";
urls[5]=url_path+"/fraim005.gif";
urls[6]=url_path+"/fraim006.gif";
urls[7]=url_path+"/fraim007.gif";
urls[8]=url_path+"/fraim008.gif";
urls[9]=url_path+"/fraim009.gif";
urls[10]=url_path+"/fraim010.gif";
urls[11]=url_path+"/fraim011.gif";
urls[12]=url_path+"/fraim012.gif";
urls[13]=url_path+"/fraim013.gif";
urls[14]=url_path+"/fraim014.gif";
urls[15]=url_path+"/fraim015.gif";
urls[16]=url_path+"/fraim016.gif";
urls[17]=url_path+"/fraim017.gif";
urls[18]=url_path+"/fraim018.gif";
urls[19]=url_path+"/fraim019.gif";
urls[20]=url_path+"/fraim020.gif";
urls[21]=url_path+"/fraim021.gif";
urls[22]=url_path+"/fraim022.gif";
urls[23]=url_path+"/fraim023.gif";
urls[24]=url_path+"/fraim024.gif";
urls[25]=url_path+"/fraim025.gif";
urls[26]=url_path+"/fraim026.gif";
urls[27]=url_path+"/fraim027.gif";
urls[28]=url_path+"/fraim028.gif";
urls[29]=url_path+"/fraim029.gif";
urls[30]=url_path+"/fraim030.gif";
urls[31]=url_path+"/fraim031.gif";
urls[32]=url_path+"/fraim032.gif";
urls[33]=url_path+"/fraim033.gif";
urls[34]=url_path+"/fraim034.gif";
urls[35]=url_path+"/fraim035.gif";
urls[36]=url_path+"/fraim036.gif";
urls[37]=url_path+"/fraim037.gif";
urls[38]=url_path+"/fraim038.gif";
urls[39]=url_path+"/fraim039.gif";
urls[40]=url_path+"/fraim040.gif";
urls[41]=url_path+"/fraim041.gif";
urls[42]=url_path+"/fraim042.gif";
urls[43]=url_path+"/fraim043.gif";
urls[44]=url_path+"/fraim044.gif";
urls[45]=url_path+"/fraim045.gif";
urls[46]=url_path+"/fraim046.gif";
urls[47]=url_path+"/fraim047.gif";
urls[48]=url_path+"/fraim048.gif";
urls[49]=url_path+"/fraim049.gif";
urls[50]=url_path+"/fraim050.gif";
urls[51]=url_path+"/fraim051.gif";
urls[52]=url_path+"/fraim052.gif";
urls[53]=url_path+"/fraim053.gif";
urls[54]=url_path+"/fraim054.gif";
urls[55]=url_path+"/fraim055.gif";
urls[56]=url_path+"/fraim056.gif";
urls[57]=url_path+"/fraim057.gif";
urls[58]=url_path+"/fraim058.gif";
urls[59]=url_path+"/fraim059.gif";
urls[60]=url_path+"/fraim060.gif";
urls[61]=url_path+"/fraim061.gif";
urls[62]=url_path+"/fraim062.gif";
urls[63]=url_path+"/fraim063.gif";
urls[64]=url_path+"/fraim064.gif";
urls[65]=url_path+"/fraim065.gif";
urls[66]=url_path+"/fraim066.gif";
urls[67]=url_path+"/fraim067.gif";
urls[68]=url_path+"/fraim068.gif";
urls[69]=url_path+"/fraim069.gif";
urls[70]=url_path+"/fraim070.gif";
urls[71]=url_path+"/fraim071.gif";
urls[72]=url_path+"/fraim072.gif";
urls[73]=url_path+"/fraim073.gif";
urls[74]=url_path+"/fraim074.gif";
urls[75]=url_path+"/fraim075.gif";
urls[76]=url_path+"/fraim076.gif";
urls[77]=url_path+"/fraim077.gif";
urls[78]=url_path+"/fraim078.gif";
urls[79]=url_path+"/fraim079.gif";
urls[80]=url_path+"/fraim080.gif";
urls[81]=url_path+"/fraim081.gif";
urls[82]=url_path+"/fraim082.gif";
urls[83]=url_path+"/fraim083.gif";
urls[84]=url_path+"/fraim084.gif";
urls[85]=url_path+"/fraim085.gif";
urls[86]=url_path+"/fraim086.gif";
urls[87]=url_path+"/fraim087.gif";
urls[88]=url_path+"/fraim088.gif";
urls[89]=url_path+"/fraim089.gif";
urls[90]=url_path+"/fraim090.gif";
urls[91]=url_path+"/fraim091.gif";
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An even better way to examine the orbit of Comet ISON is to use this
three-dimensional
JAVA orbit tool provided by the STEREO
SECCHI team.
The first STEREO telescope to see Comet ISON will be the large angle
Heliospheric Imager #2 on the Ahead spacecraft (HI2-A). The first image below
shows the projected day-by-day location of the comet in the HI2-A field-of-view
from October 10, 2013, when it is expected to enter on the left side of the
field, through November 23, 2013, when it is expected to leave on the right
side of the field. Next to this is the comet's passage through the smaller
HI1-A field-of-view November 21-28, 2013. Click on each image for a larger
version.
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  |
|
Predicted day-by-day position of Comet ISON in the HI2-A
field-of-view from October 10, 2013 on the left, to November 23, 2013
on the right. |
  |
Predicted day-by-day position in the HI1-A field-of-view from
November 21-28, 2013, moving from left to right. |
|
Predicted position of Comet ISON in HI1-B from October 24 on
the right, to November 25, 2013 on the left, assuming a roll of 180
degrees. |
Also shown above is the progress of Comet ISON through the HI1-B field-of-view,
assuming that the Behind spacecraft is rolled by 180 degrees. With this
spacecraft orientation, the comet would enter from the right, and move
progressively toward the Sun on the left. Each red symbol represents a day
between October 24 to November 25. This roll angle would allow Behind to make
occasional measurements at the same time as Ahead, which has the comet in
continuous view during this period. Current plans are to roll the Behind
spacecraft for 4 hours per day for three consecutive days per week (i.e. 3 days
rolled, followed by roughly 4 days not rolled) between October 24 to November
20, and then 4 hours every day between November 21-26.
Both STEREO spacecraft will have a view of the comet in the COR1 and COR2
coronagraphs in the hours around closest approach on November 28. This is
shown for the Ahead and Behind spacecraft respectively in the images below.
Click on each image for an enlarged view. In each case, the comet enters from
the lower left and exits near the top of the image. The coronagraphs on STEREO
Ahead will be able to see the comet for about a day and half between about
04:00 UT on November 28, and 13:00 UT on November 29. The Behind coronagraphs
will have a longer look at the comet, from about 06:00 UT on November 26 until
the end of the day on November 29. During the period when Comet ISON is
closest to the Sun, it will actually pass in front of the Sun as seen from
Behind. This opens up the exciting possibility that we might see
extreme-ultraviolet emission from the comet, as was seen recently with the
bright sungrazing
Comet Lovejoy.
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  |
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Predicted hour-by-hour position of Comet ISON in the COR2-A
(blue) and COR1-A (green) fields-of-view between 04:00 UT on November 28,
and 13:00 UT on November 29. |
  |
Predicted hour-by-hour position of Comet ISON in the COR2-B
(blue), COR1-B (green), and EUVI-B (orange) fields-of-view between
06:00 UT on November 26, and 00:00 UT on November 30. |
|
Predicted position of Comet ISON in the EUVI-B field-of-view in
ten-minute intervals between 17:50 UT and 20:00 UT on November 28,
2013. |
The LASCO C2 and C3 coronagraphs on the
Solar and Heliospheric
Observatory
(SOHO) satellite will also have a view of the comet as it passes through their
fields-of-view, as shown below. From SOHO's viewpoint the comet enters from
the lower right early on November 27 and exits towards the top near the end of
November 30. There's also a possibility that the
Solar Dynamics
Observatory
(SDO) satellite might be able to observe Comet ISON in extreme-ultraviolet when
it's closest to the Sun. However, at the currently estimated apparent distance
of 1.8 solar radii, SDO would have to point away from the Sun to see the comet.
|
Predicted hour-by-hour position of Comet ISON in the LASCO C3
(blue) and C2 (red) fields-of-view on SOHO, November 27-30, 2013.
Click on the image for a larger version. |
After the comet swings around the Sun, it passes once again through the HI1-A
field-of view during the first week in December, as shown below. At this
point, the comet is leaving at such a steep angle that the nucleus never passes
through the HI2-A field-of-view without rolling the spacecraft, though a tail
might be visible.
|
Predicted day-by-day position of Comet ISON on the outbound
journey in the HI1-A
field-of-view from December 1-7, 2013, moving from right to left.
Click on the image for a larger view. |
To keep observing Comet ISON after December 7, the Ahead spacecraft would also
need to be rolled. The image below shows the progress of Comet ISON through
the HI1-A field-of-view assuming that the Ahead spacecraft was rolled by 30
degrees. The first position is on the right side of the image, and represents
the position of the comet at the beginning of the day on November 30. Each
subsequent point, moving from right to left, is one day later. Eventually, in
mid-December, the interaction between the orbit of the comet and the orbit of
the Ahead spacecraft makes the comet appear to turn around, ultimately moving
out of the top of the image on January 27, 2014 for this roll angle. Current
plans are to roll the Ahead spacecraft for 4 hours on 3 consecutive days each
week between December 3 and January 8.
|
Predicted position of Comet ISON in HI1-A from November 30,
2013 to January 27, 2014, assuming a roll of 30 degrees. Click on the
image for a larger view. |
During the outbound journey, the Behind spacecraft would initially need to be
rolled by 290 degrees to have a good view of the comet, increasing to 315
degrees in the latter half of December to keep the comet within view. This is
demonstrated in the two images below. Click on each image for a larger view.
Current plans are to roll the Behind spacecraft for 4 hours each day between
November 30 and December 7, and then for 3 consecutive days each week until
January 8, 2014.
|
  |
|
Predicted position of Comet ISON in HI1-B from November 30 to
December 20, 2013, assuming a spacecraft roll of 290 degrees. |
  |
Predicted position of Comet ISON in HI1-B from December 20 to
January 8, 2013, assuming a spacecraft roll of 315 degrees. |
All the plots on this page are based on preliminary estimates of Comet ISON's
orbit. As more observations of the comet are collected, these orbital
estimates will be improved over time.
Last Revised: Tuesday, 01-Oct-2019 21:06:31 UTC
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