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Featured researches published by P. Mróz.


Monthly Notices of the Royal Astronomical Society | 2016

The frequency of snowline-region planets from four years of OGLE–MOA–Wise second-generation microlensing

Y. Shvartzvald; D. Maoz; A. Udalski; T. Sumi; M. Friedmann; Shai Kaspi; R. Poleski; M. K. Szymański; J. Skowron; S. Kozłowski; Ł. Wyrzykowski; P. Mróz; P. Pietrukowicz; G. Pietrzyński; I. Soszyński; K. Ulaczyk; F. Abe; R. K. Barry; D. P. Bennett; A. Bhattacharya; I. A. Bond; M. Freeman; K. Inayama; Y. Itow; N. Koshimoto; C. H. Ling; K. Masuda; A. Fukui; Y. Matsubara; Y. Muraki

We present a statistical analysis of the first four seasons from a second-generation microlensing survey for extrasolar planets, consisting of near-continuous time coverage of 8 deg2 of the Galactic bulge by the OGLE, MOA, and Wise microlensing surveys. During this period, 224 microlensing events were observed by all three groups. Over 12% of the events showed a deviation from single-lens microlensing, and for ~1/3 of those the anomaly is likely caused by a planetary companion. For each of the 224 events we have performed numerical ray-tracing simulations to calculate the detection efficiency of possible companions as a function of companion-to-host mass ratio and separation. Accounting for the detection efficiency, we find that 55 - 22 + 34 % of microlensed stars host a snowline planet. Moreover, we find that Neptunes-mass planets are ~ 10 times more common than Jupiter-mass planets. The companion-to-host mass ratio distribution shows a deficit at q ~ 10-2, separating the distribution into two companion populations, analogous to the stellar-companion and planet populations, seen in radial-velocity surveys around solar-like stars. Our survey, however, which probes mainly lower-mass stars, suggests a minimum in the distribution in the super-Jupiter mass range, and a relatively high occurrence of brown-dwarf companions.


Science | 2014

A terrestrial planet in a ~1-AU orbit around one member of a ∼15-AU binary

A. Gould; A. Udalski; I. G. Shin; I. Porritt; J. Skowron; C. Han; J. C. Yee; S. Kozłowski; J. Y. Choi; R. Poleski; Ł. Wyrzykowski; K. Ulaczyk; P. Pietrukowicz; P. Mróz; M. K. Szymański; M. Kubiak; I. Soszyński; G. Pietrzyński; B. S. Gaudi; G. W. Christie; J. Drummond; J. McCormick; T. Natusch; H. Ngan; T. G. Tan; M. D. Albrow; D. L. DePoy; K.-H. Hwang; Y. K. Jung; C.-U. Lee

Impolite planet ignores hosts partner Many known exoplanets (planets outside our own solar system) are hosted by binary systems that contain two stars. These planets normally circle around both of their stars. Using microlensing data taken with a worldwide network of telescopes, Gould et al. found a planet twice the mass of Earth that circles just one of a pair of stars. The same approach has the potential to uncover other similar star systems and help to illuminate some of the mysteries of planet formation. Science, this issue p. 46 Microlensing observations reveal an exoplanet twice the mass of Earth circling just one member of a binary system. Using gravitational microlensing, we detected a cold terrestrial planet orbiting one member of a binary star system. The planet has low mass (twice Earth’s) and lies projected at ~0.8 astronomical units (AU) from its host star, about the distance between Earth and the Sun. However, the planet’s temperature is much lower, <60 Kelvin, because the host star is only 0.10 to 0.15 solar masses and therefore more than 400 times less luminous than the Sun. The host itself orbits a slightly more massive companion with projected separation of 10 to 15 AU. This detection is consistent with such systems being very common. Straightforward modification of current microlensing search strategies could increase sensitivity to planets in binary systems. With more detections, such binary-star planetary systems could constrain models of planet formation and evolution.


The Astrophysical Journal | 2015

Spitzer as a microlens parallax satellite : mass and distance measurements of the binary lens system OGLE-2014-BLG-1050L

W. Zhu; A. Udalski; A. Gould; M. Dominik; V. Bozza; C. Han; J. C. Yee; S. Calchi Novati; C. A. Beichman; Sean J. Carey; R. Poleski; J. Skowron; S. Kozłowski; P. Mróz; P. Pietrukowicz; G. Pietrzyński; M. K. Szymański; I. Soszyński; K. Ulaczyk; Ł. Wyrzykowski; B. S. Gaudi; Richard W. Pogge; D. L. DePoy; Y. K. Jung; J.-Y. Choi; K.-H. Hwang; I.-G. Shin; H. Park; J. Jeong

We report the first mass and distance measurements of a caustic-crossing binary system OGLE-2014-BLG-1050 L using the space-based microlens parallax method. Spitzer captured the second caustic crossing of the event, which occurred ~10 days before that seen from Earth. Due to the coincidence that the source-lens relative motion was almost parallel to the direction of the binary-lens axis, the fourfold degeneracy, which was known before only to occur in single-lens events, persists in this case, leading to either a lower-mass (0.2 and 0.07 M_☉) binary at ~1.1 kpc or a higher-mass (0.9 and 0.35 M_☉) binary at ~3.5 kpc. However, the latter solution is strongly preferred for reasons including blending and lensing probability. OGLE-2014-BLG-1050 L demonstrates the power of microlens parallax in probing stellar and substellar binaries.


Monthly Notices of the Royal Astronomical Society | 2016

Black hole, neutron star and white dwarf candidates from microlensing with OGLE-III

Ł. Wyrzykowski; Zuzanna Kostrzewa-Rutkowska; J. Skowron; K. Rybicki; P. Mróz; S. Kozłowski; A. Udalski; M. K. Szymański; G. Pietrzyński; I. Soszyński; K. Ulaczyk; P. Pietrukowicz; R. Poleski; M. Pawlak; Krystian Ilkiewicz; N. J. Rattenbury

Most stellar remnants so far have been found in binary systems, where they interact with matter from their companions. Isolated neutron stars and black holes are difficult to find as they are dark, yet they are predicted to exist in our Galaxy in vast numbers. nWe explored the OGLE-III database of 150 million objects observed in years 2001-2009 and found 59 microlensing events exhibiting a parallax effect due to the Earths motion around the Sun. Combining parallax and brightness measurements from microlensing light curves with expected proper motions in the Milky Way, we identified 13 microlensing events which are consistent with having a white dwarf, neutron star or a black hole lens and we estimated their masses and distances. The most massive of our black hole candidates has 9.3 MSun and is at a distance of 2.4 kpc. The distribution of masses of our candidates indicates a continuum in mass distribution with no mass gap between neutron stars and black holes. We also present predictions on how such events will be observed by the astrometric Gaia mission.


The Astrophysical Journal | 2015

Spitzer Microlens Measurement of a Massive Remnant in a Well-Separated Binary

Y. Shvartzvald; A. Udalski; Andrew Gould; C. Han; V. Bozza; M. Friedmann; M. Hundertmark; C. A. Beichman; G. Bryden; S. Calchi Novati; Sean J. Carey; M. Fausnaugh; B. S. Gaudi; C. B. Henderson; T. Kerr; Richard W. Pogge; W. Varricatt; B. Wibking; J. C. Yee; W. Zhu; R. Poleski; M. Pawlak; M. K. Szymański; J. Skowron; P. Mróz; S. Kozłowski; Ł. Wyrzykowski; Paweł Pietrukowicz; G. Pietrzyński; I. Soszyński

We report the detection and mass measurement of a binary lens OGLE-2015-BLG-1285La,b, with the more massive component having M1 > 1.35 M⊙ (80% probability). A main-sequence star in this mass range is ruled out by limits on blue light, meaning that a primary in this mass range must be a neutron star (NS) or black hole (BH). The system has a projected separation r⊥ = 6.1 ± 0.4 AU and lies in the Galactic bulge. These measurements are based on the microlens parallax effect, i.e., comparing the microlensing light curve as seen from Spitzer, which lay at 1.25 AU projected from Earth, to the light curves from four ground-based surveys, three in the optical and one in the near-infrared. Future adaptive optics imaging of the companion by 30 m class telescopes will yield a much more accurate measurement of the primary mass. This discovery both opens the path and defines the challenges to detecting and characterizing BHs and NSs in wide binaries, with either dark or luminous companions. In particular, we discuss lessons that can be applied to future Spitzer and Kepler K2 microlensing parallax observations.


The Astrophysical Journal | 2016

MASS MEASUREMENTS of ISOLATED OBJECTS from SPACE-BASED MICROLENSING

W. Zhu; S. Calchi Novati; Andrew Gould; A. Udalski; C. Han; Y. Shvartzvald; C. Ranc; U. G. Jørgensen; R. Poleski; V. Bozza; C. A. Beichman; G. Bryden; Sean J. Carey; B. S. Gaudi; C. B. Henderson; Richard W. Pogge; I. Porritt; B. Wibking; J. C. Yee; M. Pawlak; M. K. Szymański; J. Skowron; P. Mróz; S. Kozłowski; Ł. Wyrzykowski; Paweł Pietrukowicz; G. Pietrzyński; I. Soszyński; K. Ulaczyk; J.-Y. Choi

We report on the mass and distance measurements of two single-lens events from the 2015 Spitzer microlensing campaign. With both finite-source effect and microlens parallax measurements, we find that the lens of OGLE-2015-BLG-1268 is very likely a brown dwarf (BD). Assuming that the source star lies behind the same amount of dust as the Bulge red clump, we find the lens is a 45 ± 7 M_J BD at 5.9 ± 1.0 kpc. The lens of of the second event, OGLE-2015-BLG-0763, is a 0.50 ± 0.04 M_M☉ star at 6.9 ± 1.0 kpc. We show that the probability to definitively measure the mass of isolated microlenses is dramatically increased once simultaneous ground- and space-based observations are conducted.


The Astrophysical Journal | 2015

OGLE-2013-BLG-0102LA,B: MICROLENSING BINARY WITH COMPONENTS AT STAR/BROWN DWARF AND BROWN DWARF/PLANET BOUNDARIES

Y. K. Jung; A. Udalski; T. Sumi; C. Han; A. Gould; J. Skowron; S. Kozłowski; R. Poleski; Ł. Wyrzykowski; M. K. Szymański; G. Pietrzyński; I. Soszyński; K. Ulaczyk; P. Pietrukowicz; P. Mróz; M. Kubiak; F. Abe; D. P. Bennett; I. A. Bond; C. S. Botzler; M. Freeman; A. Fukui; D. Fukunaga; Y. Itow; N. Koshimoto; P. Larsen; C. H. Ling; K. Masuda; Y. Matsubara; Y. Muraki

We present the analysis of the gravitational microlensing event OGLE-2013-BLG-0102. The light curve of the event is characterized by a strong short-term anomaly superposed on a smoothly varying lensing curve with a moderate magnification


The Astrophysical Journal | 2016

Spitzer Observations of OGLE-2015-BLG-1212 Reveal a New Path toward Breaking Strong Microlens Degeneracies

V. Bozza; Y. Shvartzvald; A. Udalski; S. Calchi Novati; I. A. Bond; C. Han; M. Hundertmark; R. Poleski; M. Pawlak; M. K. Szymański; J. Skowron; P. Mróz; S. Kozłowski; Ł. Wyrzykowski; P. Pietrukowicz; I. Soszyński; K. Ulaczyk; C. A. Beichman; G. Bryden; Sean J. Carey; M. Fausnaugh; B. S. Gaudi; A. Gould; C. B. Henderson; Richard W. Pogge; B. Wibking; J. C. Yee; W. Zhu; F. Abe; Y. Asakura

A_{rm max}sim 1.5


The Astrophysical Journal | 2016

The First Simultaneous Microlensing Observations by Two Space Telescopes: Spitzer and Swift Reveal a Brown Dwarf in Event OGLE-2015-BLG-1319

Y. Shvartzvald; Z. Li; A. Udalski; A. Gould; T. Sumi; R. A. Street; S. Calchi Novati; M. Hundertmark; V. Bozza; C. A. Beichman; G. Bryden; Sean J. Carey; J. Drummond; M. Fausnaugh; B. S. Gaudi; C. B. Henderson; T. G. Tan; B. Wibking; Richard W. Pogge; J. C. Yee; W. Zhu; Y. Tsapras; E. Bachelet; M. Dominik; D. M. Bramich; A. Cassan; R. Figuera Jaimes; K. Horne; C. Ranc; R. W. Schmidt

. It is found that the event was produced by a binary lens with a mass ratio between the components of


Monthly Notices of the Royal Astronomical Society | 2015

MOA-2010-BLG-353Lb: a possible Saturn revealed

N. J. Rattenbury; D. P. Bennett; T. Sumi; N. Koshimoto; I. A. Bond; A. Udalski; F. Abe; A. Bhattacharya; M. Freeman; A. Fukui; Y. Itow; M. C. A. Li; C. H. Ling; K. Masuda; Y. Matsubara; Y. Muraki; K. Ohnishi; To. Saito; A. Sharan; D. J. Sullivan; D. Suzuki; P. J. Tristram; S. Kozłowski; P. Mróz; P. Pietrukowicz; G. Pietrzyński; R. Poleski; D. Skowron; J. Skowron; I. Soszyński

q = 0.13

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C. Han

Chungbuk National University

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