New NIR light-curve templates for classical Cepheids

L. Inno (1; 2); N. Matsunaga (3); M. Romaniello (2); G. Bono (1 and; 4); A. Monson (5); I. Ferraro (4); G. Iannicola (4); E. Persson (5); R.; Buonanno (1; 6); W. Freedman (5); W. Gieren (7); M.A.T. Groenewegen (8),; Y. Ita (9); C.D. Laney (10; 11); B. Lemasle (12); B.F. Madore (5); T.; Nagayama (13; 14); Y. Nakada (15); M. Nonino (16); G. Pietrzynski (7 and; 17); F. Primas (2); V. Scowcroft (5); I. Soszynski (17); T. Tanabe (15); and; A. Udalski (17) ((1) Dip. di Fisica; UTOV; Rome; Italy; (2) ESO; Germany; (3); Kiso Observatory; The University of Tokyo; Japan; (4) INAF-OAR; Rome; Italy,; (5) Carnegie; Pasadena; USA; (6) INAF-OAC; Teramo; Italy; (7) Univ. de; Concepcioon; Concepcion; Chile; (8) Koninklijke Sterrenwacht van Belgiee,; Brussel; Belgium (9); Tohoku University; Japan; (10) SAAO; South Africa (11); Brigham Young University; Provo; USA; (12) Anton Pannekoek; Science Park,; Amsterdam; The Netherlands; (13) Nagoya University; Nagoya; Japan; (14); Graduate School of Science; Engineering; Kagoshima; Japan; (15) The; University of Tokyo; Tokyo; Japan; (16) INAF-OAT; Trieste; Italy; (17) Warsaw; University Observatory; Warszawa; Poland)

arXiv:1410.5460·astro-ph.SR·March 25, 2015

New NIR light-curve templates for classical Cepheids

L. Inno (1, 2), N. Matsunaga (3), M. Romaniello (2), G. Bono (1 and, 4), A. Monson (5), I. Ferraro (4), G. Iannicola (4), E. Persson (5), R., Buonanno (1, 6), W. Freedman (5), W. Gieren (7), M.A.T. Groenewegen (8),, Y. Ita (9), C.D. Laney (10, 11), B. Lemasle (12)

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TL;DR

This paper introduces new near-infrared light-curve templates for classical Cepheids, improving distance measurement accuracy and covering a broader period range, including first overtone and short-period Cepheids.

Contribution

The study provides the first NIR templates for FO and short-period FU Cepheids, with improved phase anchoring and analytical fitting methods, enhancing distance estimation precision.

Findings

01

Mean NIR magnitudes are up to 80% more accurate with new templates.

02

Distance errors are reduced to the intrinsic scatter of the relations.

03

Templates enable precise 3D mapping of Magellanic Clouds.

Abstract

We present new near-infrared (NIR) light-curve templates for fundamental (FU, JHK) and first overtone (FO, J) Cepheids. The new templates together with PL and PW relations provide Cepheid distances from single-epoch observations with a precision only limited by the intrinsic accuracy of the method adopted. The templates rely on a very large set of Galactic and Magellanic Clouds (MCs) Cepheids (FU,~600; FO,~200) with well sampled NIR (IRSF data) and optical (V,I; OGLE data) light curves. To properly trace the change in the shape of the light curve as a function of period, we split the sample of calibrating Cepheids into 10 different period bins. The templates for the first time cover FO Cepheids and the FU short-period Cepheids (P<5 days). Moreover, the zero-point phase is anchored to the phase of the mean magnitude along the rising branch. The new approach has several advantages in…

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