Giant stars seen starting to merge

Two giant stars are starting to merge, astronomers say.

Sci­en­tists are re­port­ing the dis­cov­ery of a pair of huge stars that are cir­cling each oth­er and are start­ing to merge.

The­o­ret­i­cal mod­els pre­dict that the big­gest stars form by merg­ing with oth­er smaller stars, ac­cord­ing to the re­search­ers. These stars in­i­tially make up “bi­na­ry” or “mul­ti­ple” sys­tems, in which two or more stars move around each oth­er about a com­mon cen­tral point.

Artistic rendering of MY Cam system. The proportions between the parts reflect the analysis results. The stars are deformed by their fast rotation and the companion's pull. (Credit: Javier Lorenzo, U. of Alicante).

The new study ex­am­ines what sci­en­tists call the larg­est known sys­tem of bi­na­ry stars that are ex­pected to merge and that are still “main se­quence” stars, mean­ing they’re in their ac­tive, fuel-burning phase. 

The bi­na­ry—known as MY Camel­o­par­dal­is—is al­so “e­clips­ing,” mean­ing that the stars some­times block each oth­er along the line of sight from Earth, say the re­search­ers, who pub­lished their find­ings in the jour­nalAs­tron­o­my & As­t­ro­phys­ics.

The scientists, who re­ceived help from am­a­teur sky-watchers, also say the two stars are al­ready touch­ing, weigh the equiv­a­lent of 38 and 32 Suns, re­spec­tive­ly, and take just 1.2 Earth days to cir­cle each oth­er. The stars are al­so be­lieved to be slightly egg-shaped, as each dis­torts the oth­er through its gravita­t­ional pull.

The stars—clas­si­fied as “type O,” mean­ing the bright­est, hot­test, heav­i­est and blu­est type­—are al­so quite young and were al­ready al­most touch­ing when they first formed, ac­cord­ing to the group. And they’re ex­pected to merge be­fore they them­selves change much fur­ther.

Stars which, like the Sun, move alone in their gal­axy are a mi­nor­ity, said the re­search­ers, from the Uni­vers­ity of Al­i­can­te in Spain and oth­er in­sti­tu­tions. Most stars spend their lives tied by gra­vity to one or more com­pan­ion stars. MY Ca­mel­o­par­dalis, in the con­stella­t­ion of the Gi­raffe, is the bright­est star in a clus­ter known as Al­i­can­te 1. Re­search­ers at the uni­vers­ity have iden­ti­fied the group as a small stel­lar nurse­ry, or star-forming re­gion. 

MY Ca­mel­o­par­dalis was known for over half a cen­tu­ry as just a sin­gle, huge star, but only a dec­ade ago rec­og­nized as an eclips­ing bi­na­ry. The eclips­ing prop­er­ty, in which one star blocks our view of the oth­er, al­lows as­tro­no­mers to study the sys­tem in de­tail as the light com­ing from the sys­tem changes in a reg­u­lar way. 

The as­t­ro­phys­i­cists stud­ied this light us­ing an in­stru­ment known as a spec­tro­graph at the Calar Al­to Ob­serv­a­to­ry in Spain. Am­a­teur as­tro­no­mers helped by meas­ur­ing the changes in the amount of light com­ing from the sys­tem.

Among oth­er things, the re­search­ers con­clud­ed that the points on the sur­faces of the stars are mov­ing at over a 10,000 miles (16,000 kilo­me­ters) a sec­ond; that the ma­te­ri­al in their out­er lay­ers is mix­ing; and that the stars are less than two mil­lion years old, so they haven’t had time to evolve since their birth.

While they’re ex­pected to merge, it’s un­clear ex­actly how this will play out. Some the­o­ret­i­cal mod­els sug­gest that the merg­er pro­cess is ex­tremely fast, re­leas­ing a huge amount of en­er­gy in a kind of ex­plo­sion. Oth­er stud­ies fa­vor a less vi­o­lent but still spec­tac­u­lar pro­cess.

Source: world-science.net