Armagh ObservatoryArmagh Planetarium

Exploring the Cosmos since 1790

First Announcement of an International Conference 

=== Hydrogen Deficient Stars 2018 ===

10 - 14 September 2018, Armagh, Northern Ireland

The Armagh Observatory and Planetarium will host a scientific conference from 2018 September 10 - 14 to address progress in the science of hydrogen-deficient stars.

The majority of stars have surfaces dominated by hydrogen, the most abundant element in the Universe. As stars shine, they convert hydrogen to helium and heavier elements. Many stars have already exhausted their hydrogen reserves; for some, even their surfaces are almost hydrogen free. Discovering how such stars form has been a challenge ever since 1795, when a dramatic variable star was first observed in the ‘Northern Crown’. It was later found to be a hydrogen-free star blowing out great clouds of carbon soot. R Coronae Borealis was discovered in the same decade that an Observatory was opened in Armagh, so it is appropriate that a team at Armagh has been studying similar stars for the last 20 years, finding evidence of colliding stars, born-again stars, and failed stellar explosions. It is also appropriate that, on the 50th anniversary of the opening of the Armagh Planetarium, the City of Armagh should host the fourth international conference on hydrogen-deficient stars.

After more than 200 years, the number and variety of hydrogen-deficient stars has multiplied several times. Classical examples include the R CrB and extreme helium stars, the hydrogen-deficient Ups Sgr binaries, and the hydrogen-deficient central stars of planetary nebulae or type II Wolf-Rayet [WC] stars. Since then have been added the PG1159 (or DO) pre-white dwarfs, several classes of hot subdwarf (or He-sdO) stars, the AM CVn binaries and various extremely low-mass pre-white dwarfs (ELM WDs). The conditions necessary to create a star deficient or devoid of hydrogen appear to be cataclysmic, for example involving an explosion contained within a star, or a collision between two stars. Such events may appear as transients, such as FG Sge or V4334 Sgr or other categories of novae, and will trigger a burst of gravitational waves.

The fourth such conference in 33 years, HDEF4 will review decadal progress on basic data and fundamental properties, and examine evidence from imaging and photometry for the dynamical nature of hydrogen-deficient stars. It will compare and contrast the phsyical models used to interpret the observables, and examine empirical evidence for connections between object classes. It will discuss models for long-term evolution of stars which become hydrogen-deficient, and models for the dynamical events which occur when they collide or explode. With a revolution likely to come from data provided by GAIA, the next decade of research in hydrogen-deficent stars will bring answers to questions being asked for over 200 years.

Please mark your calendar.

Please email (This email address is being protected from spambots. You need JavaScript enabled to view it.) to register your interest in participating, or visit the conference website.
Please forward this mail to anyone who could be interested in this meeting. Thanks!

We hope to see you in Armagh next year!


=== Venue ===

The conference will be held at the Armagh Observatory and Planeterium in the historic city of Armagh. 
A block of rooms has been reserved at the Armagh City Hotel. A variety of other types of accommodation will be available. Details and prices will be circulated with the second announcement.

=== Scientific Organizing Committee ===

Simon Jeffery (Armagh, UK, chair)
Kameswara Rao (Bangalore, India)
Klaus Werner (Tübingen, Germany)
Orsola de Marco (McQuarrie University, Sydney, Australia)
Geoff Clayton (Louisiana, USA)
Ulrich Heber (Bamberg, Germany)
Lars Bildsten (California, USA)
Marcelo Miller Bertolami (Argentina)
Nicole Reindl (Leicester, UK)
Amanda Karakas (Melbourne, Australia)
Falk Herwig (Victoria, Canada)