Gravitational Microlensing Events
19
Gravitational Microlensing Events Diane Feuillet Kailash Sahu
description
Gravitational Microlensing Events. Diane Feuillet Kailash Sahu. Tracking High Proper Motion Stars to Predict Possible Microlensing Events Fitting Light Curves of Long-Duration Binary Events Derived the Mass Function of Observed Events From the Timescales. ARIES Images-2402009 . - PowerPoint PPT Presentation
Transcript of Gravitational Microlensing Events
Gravitational Microlensing
EventsDiane FeuilletKailash Sahu
Tracking High Proper Motion Stars to Predict Possible Microlensing Events
Fitting Light Curves of Long-Duration Binary Events
Derived the Mass Function of Observed Events From the Timescales
ARIES Images-2402009
Poss 1 blue 1955
Poss 2 blue 1997
Poss 2 blue 1997
7
1
23 4
5
6
ARIES Images-2402009
5
4
3
6
7
21
7
1
45
6
Poss 2 blue 1997
32
ARIES Images-2402009
7
65
4321
7
1
45
6 32
Poss 2 blue 1997
6
3 4
5
1
7
2
Y po
sition
x position
600
400
400 600
1
2
D = 0.400 arcsec
T = 2/1/2012
Y po
sition
x position
510
505
515
440 445 450
Te = 141 days
1999-19Te1 = 60 daysTe2 = 120 days I mag = 15.9
HJD - 2450000
Ampl
itude 1
HJD - 24500001300 1700
2006-393Te1 = 90 daysTe2 = 74 daysI mag = 14.9
Te = 207 days
Ampl
itude
HJD - 2450000
0.5
0 3900 4200
2008-143Te1 = 40 daysTe2 = 35 days I mag = 17.6
Possible Black
Holes?
Ampl
itude
HJD - 2450000
1
0.5
4500 4800
2002-051Te1 = 8 daysTe2 = 12 days Te3 = 20 days I mag = 17.8
Three body systems
Ampl
itud
e
HJD - 2450000
4
3
2
1
02250 2400
Te = 139 days
2003-095Te1 = 26 daysTe2 = 26 daysTe3 = 15 daysI mag = 15.6
Ampl
itude
1
0.5
HJD - 24500002800 32000
2004-039Te1 = 22 daysTe2 = 1 days I mag = 17.3
2003-056Te1 = 15 daysTe2 = 20 days I mag = 16.8
Some do notfit well
Ampl
itude
1
2
3060 3100HJD - 2450000Am
plitu
de
1
HJD - 24500002650 2800
0
0
