Known transiters:
CoRoT-1 b CoRoT-10 b CoRoT-11 b CoRoT-12 b CoRoT-13 b CoRoT-17 b CoRoT-18 b CoRoT-19 b CoRoT-2 b CoRoT-20 b CoRoT-3 b CoRoT-4 b CoRoT-5 b CoRoT-6 b CoRoT-8 b CoRoT-9 b EPIC 218916923 b EPIC 228735255 b EPIC-203771098 b EPIC-203771098 c EPIC-210957318 b EPIC-211089792 b EPIC-212110888 b GJ1214 b GJ3470 b GJ436 b HAT-P-1 b HAT-P-10/WASP-11 b HAT-P-11 b HAT-P-12 b HAT-P-13 b HAT-P-14 b HAT-P-15 b HAT-P-16 b HAT-P-17 b HAT-P-18 b HAT-P-19 b HAT-P-2 b HAT-P-20 b HAT-P-21 b HAT-P-22 b HAT-P-23 b HAT-P-24 b HAT-P-25 b HAT-P-26 b HAT-P-27/WASP-40 b HAT-P-28 b HAT-P-29 b HAT-P-3 b HAT-P-30/WASP-51 b HAT-P-31 b HAT-P-32 b HAT-P-33 b HAT-P-34 b HAT-P-35 b HAT-P-36 b HAT-P-37 b HAT-P-38 b HAT-P-39 b HAT-P-4 b HAT-P-40 b HAT-P-41 b HAT-P-42 b HAT-P-43 b HAT-P-44 b HAT-P-45 b HAT-P-46 b HAT-P-49 b HAT-P-5 b HAT-P-50 b HAT-P-51 b HAT-P-52 b HAT-P-53 b HAT-P-54 b HAT-P-55 b HAT-P-56 b HAT-P-57 b HAT-P-6 b HAT-P-65 b HAT-P-66 b HAT-P-67 b HAT-P-7 b HAT-P-8 b HAT-P-9 b HATS-1 b HATS-11 b HATS-12 b HATS-18 b HATS-19 b HATS-20 b HATS-21 b HATS-22 b HATS-23 b HATS-24 b HATS-25 b HATS-26 b HATS-27 b HATS-28 b HATS-29 b HATS-30 b HATS-31 b HATS-32 b HATS-33 b HATS-34 b HATS-35 b HATS-36 b HATS-43 b HATS-44 b HATS-45 b HATS-46 b HATS-5 b HATS-6 b HATS-P-7 b HD149026 b HD17156 b HD189733 b HD209458 b HD80606 b HD97658 b KELT-1 b KELT-10 b KELT-11 b KELT-15 b KELT-16 b KELT-17 b KELT-2A b KELT-3 b KELT-4A b KELT-6 b KELT-7 b KELT-8 b Kepler-10 c Kepler-11 c Kepler-11 d Kepler-11 e Kepler-11 f Kepler-11 g Kepler-12 b Kepler-14 b Kepler-15 b Kepler-16A b Kepler-16B b Kepler-17 b Kepler-18 d Kepler-18 c Kepler-19 b Kepler-20 d Kepler-20 c Kepler-4 b Kepler-448 b Kepler-5 b Kepler-6 b Kepler-7 b Kepler-8 b Kepler-9 b Kepler-9 c KOI 0135 b KOI 0196 b KOI 0204 b KOI 0428 b LUPUS-TR3 b OGLE-TR-10 b OGLE-TR-111 b OGLE-TR-113 b OGLE-TR-132 b OGLE-TR-182 b OGLE-TR-211 b OGLE-TR-56 b OGLE-TR-L9 b Qatar-1 b Qatar-2 b Qatar-3 b Qatar-4 b Qatar-5 b TrES-1 b TrES-2 b TrES-3 b TrES-4 b TrES-5 b WASP-1 b WASP-10 b WASP-100 b WASP-101 b WASP-102 b WASP-103 b WASP-104 b WASP-105 b WASP-106 b WASP-107 b WASP-108 b WASP-109 b WASP-110 b WASP-111 b WASP-112 b WASP-113 b WASP-114 b WASP-117 b WASP-118 b WASP-119 b WASP-12 b WASP-120 b WASP-121 b WASP-122 b WASP-123 b WASP-124 b WASP-126 b WASP-127 b WASP-129 b WASP-13 b WASP-130 b WASP-131 b WASP-132 b WASP-133 b WASP-136 b WASP-138 b WASP-139 b WASP-14 b WASP-140 b WASP-141 b WASP-142 b WASP-15 b WASP-157 b WASP-16 b WASP-167 b WASP-17 b WASP-18 b WASP-19 b WASP-2 b WASP-20 b WASP-21 b WASP-22 b WASP-23 b WASP-24 b WASP-25 b WASP-26 b WASP-28 b WASP-29 b WASP-3 b WASP-31 b WASP-32 b WASP-33 b WASP-34 b WASP-35 b WASP-36 b WASP-37 b WASP-38 b WASP-39 b WASP-4 b WASP-41 b WASP-42 b WASP-43 b WASP-44 b WASP-45 b WASP-46 b WASP-47 b WASP-48 b WASP-49 b WASP-5 b WASP-50 b WASP-52 b WASP-54 b WASP-55 b WASP-56 b WASP-57 b WASP-58 b WASP-59 b WASP-6 b WASP-60 b WASP-61 b WASP-62 b WASP-63 b WASP-64 b WASP-65 b WASP-66 b WASP-67 b WASP-68 b WASP-69 b WASP-7 b WASP-70A b WASP-71 b WASP-72 b WASP-73 b WASP-74 b WASP-75 b WASP-76 b WASP-77 b WASP-78 b WASP-79 b WASP-8 b WASP-80 b WASP-82 b WASP-83 b WASP-84 b WASP-85A b WASP-86/Kelt-12 b WASP-87 b WASP-88 b WASP-89 b WASP-90 b WASP-91 b WASP-92 b WASP-93 b WASP-94A b WASP-95 b WASP-96 b WASP-97 b WASP-98 b WASP-99 b WD 1145+017 b XO-1 b XO-2 b XO-3 b XO-4 b XO-5 b XO-6 b
|
ETD - Exoplanet Transit Database
Observers community | How to contribute to ETD | Model-fit your data | Transit predictions |
KEPLER Transit predictions | KEPLER Candidates
KEPLER is a spacecraft operated by NASA. For more information see the official website: kepler.nasa.gov
IMPORTANT NOTE:
The list bellow contains 1200 KEPLER candidates issued in February 2011. Already published planets and candidates catched only once in transit were excluded.
All values were obtained from paper "Characteristics of planetary candidates observed by Kepler, II: Analysis of the first four months of data"
by William J. Borucki and the KEPLER team.
NEW: All mentioned KEPLER candidates can be now processed in the data fitting routine and submitted to the TRESCA database of transit observations.
LIST OF KEPLER CANDIDATE OBJECTS:
http://var2.astro.cz/ETD/KEPLERCandidates.php
0){
if($v2 < 0){
$A = $A + 180;
}
}
if ($v1 < 0){
if ($v2 < 0){
$A = $A - 180;
}
}
$A += 180;
return $z."_".$A;
}
function countS($zem_delka, $jd) {
// T = (JD0- 2451545)/36525;
// S0 = 6.697374558 + 2400.05133691.T + 2,58622. 10-5.T3.2,58622. 10-5.T - 1,7. 10-10.T.1,7. 10-9.T.1,7. 10-9.T
// kde JD0 je juliánské datum v 0h UT. Nyní mužeme urcil lokální hvezdný cas s, který se váže
// k místu pozorovatele zemepisnou délkou :
// s = S0 + 1,0027379093.( H + (Min/60) + (Sec/3600) ) + délka/15
$JD0 = Floor($jd) + 0.5;
$T = ($JD0 - 2451545)/36525;
// $S0 = (24110.54841 + 8640184.812866*$Tu + 0.093104*Pow($Tu, 2) - 6.2E-6*Pow($Tu, 3))/3600;
$S0 = (24110.54841 + 8640184.812866*$T + 0.093104*Pow($T, 2) - 6.2E-6*Pow($T, 3))/3600;
$greg = conv2greg($jd);
$s = $S0 + 1.0027379093*($greg["hodina"] + $greg["minuta"]/60) + $zem_delka/15;
return $s;
}
function count_tranzits($JDmidnight, $sirka, $delka, $evening, $morning) {
$sql = "select * from exoplanets where PROBABILITY = 80 and STARNAME like 'KOI %' order by STARNAME";
@$r = MySQLi_Query($GLOBALS["spojeni"], $sql); if (!$r) { sqlerror($sql); return; }
echo " ";
echo "| OBJECT | BEGIN
(UT/h,A) | CENTER
(DD.MM. UT/h,A) | END
(UT/h,A) | ";
echo "D
(min) | V
(MAG) | DEPTH
(MAG) | Elements
Coords | ";
echo "| | \n\n";
while ($z = MySQLi_Fetch_Array($r)) {
$identifier = $z[STARNAME]." ".$z[PLANET];
list ($RH, $RM, $RS) = Split (" ", $z[RA]);
list ($DD, $DM, $DS) = Split (" ", $z[DE]);
$RA = ($RH + $RM/60 + $RS/3600) * 15;
$DE = $DD + $DM/60 + $DS/3600;
$M0 = $z[EPOCH];
if ($M0 < 2400000) { $M0 += 2400000; }
$PER = $z[PER];
$E = Round(($JDmidnight - $M0)/$PER);
$C = $M0 + $PER*$E;
if (Abs($C-$JDmidnight) <= 0.5) {
$C_begin = $C - ($z[D]/(2*60*24));
$C_end = $C + ($z[D]/(2*60*24));
List($zet, $A) = split("_", countZ($RA, $DE, $delka, $sirka, $C));
$h = 90 - IntVal($zet);
if (($A > 337) && ($A < 360)) { $A_l = "N"; }
elseif (($A > 0) && ($A < 22.5)) { $A_l = "N"; }
elseif (($A > 22.5) && ($A < 67.5)) { $A_l = "NE"; }
elseif (($A > 67.5) && ($A < 112.5)) { $A_l = "E"; }
elseif (($A > 112.5) && ($A < 157.5)) { $A_l = "SE"; }
elseif (($A > 157.5) && ($A < 202.5)) { $A_l = "S"; }
elseif (($A > 202.5) && ($A < 247.5)) { $A_l = "SW"; }
elseif (($A > 247.5) && ($A < 292.5)) { $A_l = "W"; }
elseif (($A > 292.5) && ($A < 336.5)) { $A_l = "NW"; }
List($zet_begin, $A_begin) = split("_", countZ($RA, $DE, $delka, $sirka, $C_begin));
$h_begin = 90 - IntVal($zet_begin);
if (($A_begin > 337) && ($A_begin < 360)) { $A_begin_l = "N"; }
elseif (($A_begin > 0) && ($A_begin < 22.5)) { $A_begin_l = "N"; }
elseif (($A_begin > 22.5) && ($A_begin < 67.5)) { $A_begin_l = "NE"; }
elseif (($A_begin > 67.5) && ($A_begin < 112.5)) { $A_begin_l = "E"; }
elseif (($A_begin > 112.5) && ($A_begin < 157.5)) { $A_begin_l = "SE"; }
elseif (($A_begin > 157.5) && ($A_begin < 202.5)) { $A_begin_l = "S"; }
elseif (($A_begin > 202.5) && ($A_begin < 247.5)) { $A_begin_l = "SW"; }
elseif (($A_begin > 247.5) && ($A_begin < 292.5)) { $A_begin_l = "W"; }
elseif (($A_begin > 292.5) && ($A_begin < 336.5)) { $A_begin_l = "NW"; }
List($zet_end, $A_end) = split("_", countZ($RA, $DE, $delka, $sirka, $C_end));
$h_end = 90 - IntVal($zet_end);
if (($A_end > 337) && ($A_end < 360)) { $A_end_l = "N"; }
elseif (($A_end > 0) && ($A_end < 22.5)) { $A_end_l = "N"; }
elseif (($A_end > 22.5) && ($A_end < 67.5)) { $A_end_l = "NE"; }
elseif (($A_end > 67.5) && ($A_end < 112.5)) { $A_end_l = "E"; }
elseif (($A_end > 112.5) && ($A_end < 157.5)) { $A_end_l = "SE"; }
elseif (($A_end > 157.5) && ($A_end < 202.5)) { $A_end_l = "S"; }
elseif (($A_end > 202.5) && ($A_end < 247.5)) { $A_end_l = "SW"; }
elseif (($A_end > 247.5) && ($A_end < 292.5)) { $A_end_l = "W"; }
elseif (($A_end > 292.5) && ($A_end < 336.5)) { $A_end_l = "NW"; }
if ($h > 20) {
// pro hvězdy, které jsou víc než 20° nad obzorem v okamžiku středu tranzitu
$greg = conv2greg($C);
$greg_begin = conv2greg($C_begin);
$greg_end = conv2greg($C_end);
List($SunRA, $SunDE) = split ("_", countSunCoords($delka, $sirka, $C));
List($Sunzet, $SunA) = split("_", countZ($SunRA, $SunDE, $delka, $sirka, $C));
$Sunh = 90 - IntVal($Sunzet);
if ($Sunh < -10) {
$string = "";
$string .= "| ".ERegI_Replace("_", "", $z[STARNAME])." ".$z[PLANET]."";
$string .= " ".$z[SHV]." | ";
$string .= "".$greg_begin[hodina].":".$greg_begin[minuta]."
";
$string .= $h_begin."°,".$A_begin_l." | ";
$string .= "".$greg[den].".".$greg[mesic].". ".$greg[hodina].":".$greg[minuta]."
";
$string .= $h."°,".$A_l." | ";
$string .= "".$greg_end[hodina].":".$greg_end[minuta]."
";
$string .= $h_end."°,".$A_end_l." | ";
$string .= "".Sprintf("%d", $z[D])." | ";
$string .= "".$z[MAG]." | ";
$string .= "".countKEPLERDepthInMag($z[DEPTH])." | ";
$EPOCH = $z[EPOCH]-2400000;
$string .= "".$EPOCH."+".$z[PER]."*E
";
$string .= "RA: ".$z[RA]."
DE: ".$z[DE]." | ";
$string .= " \n";
$string .= "
| \n\n";
$rows[] = $C."xxx".$string;
}
}
}
}
if (Count($rows) > 0) {
Sort($rows);
for ($i = 0; $i";
}
function count_tranzits_userdefined($JDmidnight, $sirka, $delka, $evening, $morning, $begjd, $endjd) {
$sql = "select * from exoplanets where PROBABILITY = 80 order by STARNAME";
@$r = MySQLi_Query($GLOBALS["spojeni"], $sql); if (!$r) { sqlerror($sql); return; }
echo "";
echo "| OBJECT | BEGIN
(UT/h,A) | CENTER
(DD.MM. UT/h,A) | END
(UT/h,A) | ";
echo "D
(min) | V
(MAG) | DEPTH
(MAG) | Elements
Coords | ";
echo "| | \n\n";
for ($i = $begjd; $i < $endjd; $i += 1) {
@MySQLi_Data_Seek($r, 0);
$JDmidnight = $i;
while ($z = MySQLi_Fetch_Array($r)) {
$identifier = $z[STARNAME]." ".$z[PLANET];
list ($RH, $RM, $RS) = Split (" ", $z[RA]);
list ($DD, $DM, $DS) = Split (" ", $z[DE]);
$RA = ($RH + $RM/60 + $RS/3600) * 15;
$DE = $DD + $DM/60 + $DS/3600;
$M0 = $z[EPOCH];
if ($M0 < 2400000) { $M0 += 2400000; }
$PER = $z[PER];
$E = Round(($JDmidnight - $M0)/$PER);
$C = $M0 + $PER*$E;
if (Abs($C-$JDmidnight) <= 0.5) {
$C_begin = $C - ($z[D]/(2*60*24));
$C_end = $C + ($z[D]/(2*60*24));
List($zet, $A) = split("_", countZ($RA, $DE, $delka, $sirka, $C));
$h = 90 - IntVal($zet);
if (($A > 337) && ($A < 360)) { $A_l = "N"; }
elseif (($A > 0) && ($A < 22.5)) { $A_l = "N"; }
elseif (($A > 22.5) && ($A < 67.5)) { $A_l = "NE"; }
elseif (($A > 67.5) && ($A < 112.5)) { $A_l = "E"; }
elseif (($A > 112.5) && ($A < 157.5)) { $A_l = "SE"; }
elseif (($A > 157.5) && ($A < 202.5)) { $A_l = "S"; }
elseif (($A > 202.5) && ($A < 247.5)) { $A_l = "SW"; }
elseif (($A > 247.5) && ($A < 292.5)) { $A_l = "W"; }
elseif (($A > 292.5) && ($A < 336.5)) { $A_l = "NW"; }
List($zet_begin, $A_begin) = split("_", countZ($RA, $DE, $delka, $sirka, $C_begin));
$h_begin = 90 - IntVal($zet_begin);
if (($A_begin > 337) && ($A_begin < 360)) { $A_begin_l = "N"; }
elseif (($A_begin > 0) && ($A_begin < 22.5)) { $A_begin_l = "N"; }
elseif (($A_begin > 22.5) && ($A_begin < 67.5)) { $A_begin_l = "NE"; }
elseif (($A_begin > 67.5) && ($A_begin < 112.5)) { $A_begin_l = "E"; }
elseif (($A_begin > 112.5) && ($A_begin < 157.5)) { $A_begin_l = "SE"; }
elseif (($A_begin > 157.5) && ($A_begin < 202.5)) { $A_begin_l = "S"; }
elseif (($A_begin > 202.5) && ($A_begin < 247.5)) { $A_begin_l = "SW"; }
elseif (($A_begin > 247.5) && ($A_begin < 292.5)) { $A_begin_l = "W"; }
elseif (($A_begin > 292.5) && ($A_begin < 336.5)) { $A_begin_l = "NW"; }
List($zet_end, $A_end) = split("_", countZ($RA, $DE, $delka, $sirka, $C_end));
$h_end = 90 - IntVal($zet_end);
if (($A_end > 337) && ($A_end < 360)) { $A_end_l = "N"; }
elseif (($A_end > 0) && ($A_end < 22.5)) { $A_end_l = "N"; }
elseif (($A_end > 22.5) && ($A_end < 67.5)) { $A_end_l = "NE"; }
elseif (($A_end > 67.5) && ($A_end < 112.5)) { $A_end_l = "E"; }
elseif (($A_end > 112.5) && ($A_end < 157.5)) { $A_end_l = "SE"; }
elseif (($A_end > 157.5) && ($A_end < 202.5)) { $A_end_l = "S"; }
elseif (($A_end > 202.5) && ($A_end < 247.5)) { $A_end_l = "SW"; }
elseif (($A_end > 247.5) && ($A_end < 292.5)) { $A_end_l = "W"; }
elseif (($A_end > 292.5) && ($A_end < 336.5)) { $A_end_l = "NW"; }
if ($h > 20) {
// pro hvězdy, které jsou víc než 20° nad obzorem v okamžiku středu tranzitu
$greg = conv2greg($C);
$greg_begin = conv2greg($C_begin);
$greg_end = conv2greg($C_end);
List($SunRA, $SunDE) = split ("_", countSunCoords($delka, $sirka, $C));
List($Sunzet, $SunA) = split("_", countZ($SunRA, $SunDE, $delka, $sirka, $C));
$Sunh = 90 - IntVal($Sunzet);
if ($Sunh < -10) {
$string = "";
$string .= "| ".ERegI_Replace("_", "", $z[STARNAME])." ".$z[PLANET]."";
$string .= " ".$z[SHV]." | ";
$string .= "".$greg_begin[hodina].":".$greg_begin[minuta]."
";
$string .= $h_begin."°,".$A_begin_l." | ";
$string .= "".$greg[den].".".$greg[mesic].". ".$greg[hodina].":".$greg[minuta]."
";
$string .= $h."°,".$A_l." | ";
$string .= "".$greg_end[hodina].":".$greg_end[minuta]."
";
$string .= $h_end."°,".$A_end_l." | ";
$string .= "".Sprintf("%d", $z[D])." | ";
$string .= "".$z[MAG]." | ";
$string .= "".countKEPLERDepthInMag($z[DEPTH])." | ";
$EPOCH = $z[EPOCH]-2400000;
$string .= "".$EPOCH."+".$z[PER]."*E
";
$string .= "RA: ".$z[RA]."
DE: ".$z[DE]." | ";
$string .= " \n";
$string .= "
| \n\n";
$rows[] = $C."xxx".$string;
}
}
}
}
} // end for
if (Count($rows) > 0) {
Sort($rows);
for ($i = 0; $i";
}
function show_calendar($JDmidnight, $delka, $sirka, $init, $till) {
$inittime = time()-2*24*60*60;
$endtime = time()+30*24*60*60;
echo "Available predictions: (UT evening date)
";
for ($i = $inittime; $i < $endtime; $i += 86400) {
List($year, $month, $day) = split("\-", conv2date($i));
if ($lastmonth != $month) {
echo "
".$year."-".$month."- ";
}
if ($JDmidnight == conv2jd($year, $month, $day, 24, 0, 0)) {
echo "".$day.", ";
} else {
echo "".$day.", ";
}
$lastyear = $year; $lastmonth = $month; $lastday = $day;
}
if (!IsSet($init)) {
$init = 'YYYY-MM-DD';
}
if (!IsSet($till)) {
$till = 'YYYY-MM-DD';
}
echo "
";
echo "
";
}
if (!$delka && !$sirka && $cookiedelka && $cookiesirka) {
$delka = $cookiedelka;
$sirka = $cookiesirka;
}
if (!$JDmidnight) {
$comptime = time();
$year = Date("Y", $comptime);
$month = Date("m", $comptime);
$day = Date("d", $comptime);
if (Date("H", $comptime) < 8) {
$JDmidnight = conv2jd($year, $month, $day, 0, 0, 0);
} else {
$JDmidnight = conv2jd($year, $month, $day, 24, 0, 0);
}
}
$userdef = 0;
if ($f == 'userdefined') {
if (ERegI("([[:digit:]]{4})-([[:digit:]]{2})-([[:digit:]]{2})", $init, $tmppole)) {
$inittime = conv2jd($tmppole[1], $tmppole[2], $tmppole[3], 0, 0, 0);
++$userdef;
}
if (ERegI("([[:digit:]]{4})-([[:digit:]]{2})-([[:digit:]]{2})", $till, $tmppole)) {
$endtime = conv2jd($tmppole[1], $tmppole[2], $tmppole[3], 24, 0, 0);
++$userdef;
}
}
?>
Transits predictions for ELONGITUDE: ".$delka."° and LATITUDE: ".$sirka."°\n";
if ($userdef == 2) {
$rozdil = $endtime - $inittime;
if ($rozdil > 90) {
echo "Sorry, maximum time span for transit prediction is 90 days.
You are requesting ".$rozdil." days. ";
} else {
count_tranzits_userdefined($JDmidnight, $sirka, $delka, $evening, $morning, $inittime, $endtime);
}
} else {
count_tranzits($JDmidnight, $sirka, $delka, $evening, $morning);
}
echo "Showing transits only more then 20 degrees above horizont in time of midtransit and sun more then 10 degrees bellow horizont for your observing place (ELONGITUDE: ".$delka."° and LATITUDE: ".$sirka."°) \n";
} else {
echo "Type elongitude and latitude (in degrees) of your observing place. ";
}
showtext($_SERVER[SCRIPT_NAME], $lang, $sezona, "bottom");
ENDHTML($spojeni, $sezona, $lang, $_SERVER[PHP_AUTH_USER], $_SERVER[PHP_AUTH_PW], $PHPSESSID)
?> |
