A New Approach to Find the Bohm-Vitense gap

Tahereh Ramezani; Ernst Paunzen; Martin Piecka; Michal Kajan

A New Approach to Find the Bohm-Vitense gap

Tahereh Ramezani, Ernst Paunzen, Martin Piecka, Michal Kajan

Department of Astrophysics

Publications: Contribution to journal › Article › Peer Reviewed

Abstract

This paper discusses the Bohm-Vitense gap, a gap in the colours of stars that occurs when the atmosphere changes from radiative to convective in deep layers. We are using different algorithms for detecting gaps in colour-magnitude diagrams (CMDs), including the k-nearest neighbours (k-NN) and UniDip algorithms. We propose using a combination of the k-NN algorithm and the UniDip algorithm and manual verification to identify gaps unlikely to be of a statistical origin. Using the Gaia photometric system, i.e. BP - RP, we took the data of 130 star clusters and searched for gaps in the ranges of 0.40 to 0.47 mag, and 0.56 to 0.60 mag, respectively. We analysed all data statistically and identified the gaps in the individual clusters. Finally, we applied the kernel density estimator to see how the gaps are distributed.

Original language	English
Number of pages	16
Journal	Bulgarian Astronomical Journal
Volume	41
Publication status	Published - Jul 2024

Austrian Fields of Science 2012

103003 Astronomy
103004 Astrophysics

Keywords

convection
Hertzsprung-Russell and colour-magnitude diagrams
open clusters and associations: general
radiative transfer

Cite this

@article{958cb0e4e8ff4da78e177bfae961226e,

title = "A New Approach to Find the Bohm-Vitense gap",

abstract = "This paper discusses the Bohm-Vitense gap, a gap in the colours of stars that occurs when the atmosphere changes from radiative to convective in deep layers. We are using different algorithms for detecting gaps in colour-magnitude diagrams (CMDs), including the k-nearest neighbours (k-NN) and UniDip algorithms. We propose using a combination of the k-NN algorithm and the UniDip algorithm and manual verification to identify gaps unlikely to be of a statistical origin. Using the Gaia photometric system, i.e. BP - RP, we took the data of 130 star clusters and searched for gaps in the ranges of 0.40 to 0.47 mag, and 0.56 to 0.60 mag, respectively. We analysed all data statistically and identified the gaps in the individual clusters. Finally, we applied the kernel density estimator to see how the gaps are distributed.",

keywords = "convection, Hertzsprung-Russell and colour-magnitude diagrams, open clusters and associations: general, radiative transfer",

author = "Tahereh Ramezani and Ernst Paunzen and Martin Piecka and Michal Kajan",

year = "2024",

month = jul,

language = "English",

volume = "41",

journal = "Bulgarian Astronomical Journal",

issn = "1313-2709",

}

TY - JOUR

T1 - A New Approach to Find the Bohm-Vitense gap

AU - Ramezani, Tahereh

AU - Paunzen, Ernst

AU - Piecka, Martin

AU - Kajan, Michal

PY - 2024/7

Y1 - 2024/7

N2 - This paper discusses the Bohm-Vitense gap, a gap in the colours of stars that occurs when the atmosphere changes from radiative to convective in deep layers. We are using different algorithms for detecting gaps in colour-magnitude diagrams (CMDs), including the k-nearest neighbours (k-NN) and UniDip algorithms. We propose using a combination of the k-NN algorithm and the UniDip algorithm and manual verification to identify gaps unlikely to be of a statistical origin. Using the Gaia photometric system, i.e. BP - RP, we took the data of 130 star clusters and searched for gaps in the ranges of 0.40 to 0.47 mag, and 0.56 to 0.60 mag, respectively. We analysed all data statistically and identified the gaps in the individual clusters. Finally, we applied the kernel density estimator to see how the gaps are distributed.

AB - This paper discusses the Bohm-Vitense gap, a gap in the colours of stars that occurs when the atmosphere changes from radiative to convective in deep layers. We are using different algorithms for detecting gaps in colour-magnitude diagrams (CMDs), including the k-nearest neighbours (k-NN) and UniDip algorithms. We propose using a combination of the k-NN algorithm and the UniDip algorithm and manual verification to identify gaps unlikely to be of a statistical origin. Using the Gaia photometric system, i.e. BP - RP, we took the data of 130 star clusters and searched for gaps in the ranges of 0.40 to 0.47 mag, and 0.56 to 0.60 mag, respectively. We analysed all data statistically and identified the gaps in the individual clusters. Finally, we applied the kernel density estimator to see how the gaps are distributed.

KW - convection

KW - Hertzsprung-Russell and colour-magnitude diagrams

KW - open clusters and associations: general

KW - radiative transfer

UR - http://www.scopus.com/inward/record.url?scp=85186441126&partnerID=8YFLogxK

M3 - Article

AN - SCOPUS:85186441126

SN - 1313-2709

VL - 41

JO - Bulgarian Astronomical Journal

JF - Bulgarian Astronomical Journal

ER -

A New Approach to Find the Bohm-Vitense gap

Abstract

Austrian Fields of Science 2012

Keywords

Other files and links

Fingerprint

Cite this