Showpiece doubles: point your telescope toward these gems of the late-summer sky.
We'll begin with the highly praised double Epsilon (epsilon) Bootis, commonly known as Izar (EYE-zar). The name means "girdle" or "loin cloth" and refers to the star's position within its constellation figure. William Herschel discovered Izar's dual nature in 1779, describing it as "very beautiful." In his 1867 double-star catalog, the Reverend William Rutter Dawes called Izar "one of the most beautiful stars in the heavens," but his contemporary Friedrich Georg Wilhelm von Struve is generally credited with bestowing the name Pulcherrima (most beautiful) on this pair.
Izar is nicely split through my 105mm refractor at 122x. The brilliant, golden primary watches over a snowy white companion to the north-northwest that shines 2.2 magnitudes dimmer. Many observers see the companion as blue or green, a common color-contrast illusion that can sometimes be dispelled by using enough magnification to widely separate the stars.
Izar's primary is a KO giant that has exhausted the hydrogen fuel in its core. Its outer layers have expanded, turning the star into an immense, amber light bulb 33 times as big across and 400 times as bright as our Sun. The white star is an A2 dwarf--a main-sequence star that's still burning hydrogen in its core. It's about twice as big across and 27 times as bright as our Sun. According to Kaler, the pair's orbital period must be well over a thousand years.
Farther north in Bootes we find [Mu.sup.1] ([[mu].sup.1]) and [Mu.sup.2] ([[mu].sup.2]) Bootis. [Mu.sup.1] also bears the name Alkalurops (uhl-kuhLOO-rops), which in the course of a torturous history evolved from a word meaning "club" into a corrupted form of another word that's supposed to signify a "shepherd's staff."
Through my 105-mm scope at 28x, white [Mu.sup.1] is widely separated from yellow [Mu.sup.2], which stands a roomy 109" to the south. At 127x [Mu.sup.2] splits into a close pair of yellow stars, one shining at magnitude 7.1 and the other a half magnitude fainter. The [Mu.sup.2] pair is a visual binary with a period of only 265 years. This is a good time to observe the pair since its stars are currently 2.2" apart, close to their greatest separation, with the brighter one south of its attendant. While [Mu.sup.1] is also a binary, the components always appear too close together to discern.
Are the two pairs physically related? A Bayesian probability analysis by Ed J. Shaya and Rob P. Oiling (Astrophysical Journal Supplement, 2011) places the likelihood at nearly 100%. However, a 2014 study by Olga Kiyaeva and colleagues (Astronomy Reports) indicates that differences in the heavy-element abundances between the two systems favors a scenario in which they have different origins and are simply undergoing a close encounter.
Now we'll head over to Hercules where we'll meet the spectacular double Alpha ([alpha]) Herculis, Rasalgethi (rahsuhl-JAY-the). Rasalgethi means "the Kneeler's Head," as we see Hercules upside-down in the sky. In the 105-mm scope at 76x, this remarkable pair boasts a splendid, orange primary guarding a yellow companion 4.6" to the east-southeast. A magnification of 122x makes distinguishing the colors easier. The stars orbit each other in a stately march of roughly 3,600 years. The direction of the companion with respect to its primary shifts slowly, but the apparent separation barely changes throughout the orbit.
There's more to the Rasalgethi system than meets the eye! The companion is actually a spectroscopic binary composed of a G5 giant star and an F2 dwarf separated by only two-fifths the distance between the Earth and Sun. They complete an orbit in a mere 52 days. The primary giant is a semiregular variable with a magnitude range of about 2.7 to 3.6 and a mean period of roughly 126 days. The primary also appears to be binary, resolved three times at separations 0.16" to 0.19".
One of my favorite doubles is Beta ([beta]) Cygni, Albireo (al-BIH-ree-oh). Strangely, the common name is meaningless. The story begins with Ptolemy's name for Cygnus, ornis (bird), which was transliterated into Arabic. The Arabic name was then transliterated into Latin during the Middle Ages, and one commentator wrote that the resulting moniker might be derived ab ireo (from ireus), the name of an aromatic plant. A Latin version of Ptolemy's Almagest showed the words ab ireo on the line just before the constellation's first star, and it seems to have been mistaken for the name of that star. Finally, ab ireo was made to look Arabic again, morphing into Albireo. If you'd like to know more about the often amazing origins of star names, pick up a copy of the authoritative book A Dictionary of Modern Star Names by Paul Kunitzsch and Tim Smart.
Albireo is a must-show at public star parties as a wonderful study in color, temperature, and stellar evolution. The colors show surprisingly well even in 15x45 binoculars, where I see them as gold and blue, yet the secondary looks blue-white when I use a telescope. Sissy Haas, author of the gem-packed book Double Stars for Small Telescopes, is much more creative with color names than I am and surely must have had the 64-color pack of Crayola crayons as a child. She describes Albireo as "a stunning pair of deeply colored stars, brilliant citrus orange and vivid royal blue." With its golden or citrus hue, Albireo A must be much cooler than bluish Albireo B, so why does it look brighter? The answer, of course, is that the A component is an aged giant, and thus a much bigger light source than the blue-white dwarf.
According to the Washington Double Star Catalog (http://ad.usno.navy.mil/ wds/), the primary star has two very close companions. One (Ac) is a hot, blue dwarf with an orbital period of 214 years. The separation is currently 0.40", increasing to a maximum of 0.66" near the end of this century. The other (Ab) is a much closer companion about which little is known. Albireo B was once considered double as well, but there was only one detection, now believed to be a mistakenly assigned measure of the primary and one of its close companions.
Are Albireo A and B physically related? It's not certain. They have statistically the same parallax distance and may be moving through space together, but their distance from us and their apparent separation implies an unusually long orbit, on the order of 100,000 years.
Our final target also lies in Cygnus, at the bend of the Swan's northern wing. Despite being the 4th-brightest star in the constellation, Delta ([delta]) Cygni bears no common name. Delta is a triple star made up of a tight pair accompanied by a faint companion at a spacious remove, an arrangement that helps stabilize a triplet.
Through the 105-mm refractor at 122x, the close pair is well split, showing a resplendent white primary with a 6th-magnitude, yellow-white companion 2.8" southwest. At any magnification high enough to split this pair, the much dimmer, 12th-magnitude companion shyly standing off 63" to the east-northeast hardly looks like a true companion.
The close pair is a visual binary with a period of 918 years. Its apparent separation will increase for nearly four centuries to a maximum of 4.8". From a hypothetical planet circling the yellow-white dwarf star, the subgiant primary would shine with the light of several thousand full Moons, effectively banishing the night with its presence. What a sight!
* Contributing Editor SUE FRENCH welcomes your comments at email@example.com.
Caption: The name Bootes, meaning "Herdsman" or "Plowman" in archaic Greek, can be traced as far back as Homer, whose hero Odysseus used the constellation to guide his night journey away from Ogygia, the island of Calypso. Izar, the common name for Epsilon Bootis, translates to "girdle" or "loin cloth" and marks the waistline of the celestial keeper of cattle.
Caption: Left: Fourth-magnitude [Mu.sup.1] Bootis is sometimes called Alkalurops, a mellifluous name that derives from the Arabic adaptation of the Greek kalaurops, meaning "a shepherd's crook" or "staff." The above sketch shows [Mu.sup.1] and the [Mu.sup.2] pair as viewed at 240x through a 6-inch Newtonian.
Caption: The multiple-star system Alpha Herculis, popularly known as Rasalgethi, marks the head of Hercules, who kneels upside down in our night sky.
Caption: HERCULES The color contrast makes Alpha Herculis an attractive split. Here the pair is shown as viewed through an 8-inch f/5.9 Newtonian refractor at 240x.
Caption: Left: Though Albireo A and B combine to form a beautiful double-star scene, their visual proximity may be happenstance, as astronomers aren't certain the two stars are related physically. Right: This sketch shows Albireo as viewed through an 80-mm refractor at 112x.
Caption: Cygnus, the Swan, dives along the bright line of the summer Milky Way.
Double-Star Showpieces Object On Chart ~Dist. (l-y) Mag(v) Izar [epsilon] Bootis 200 2.6, 4.8 Alkalurops AB [mu] Bootis 120 4.3, 7.1 Alkalurops BaBb [mu] Bootis 120 7.1,7.6 Rasalgethi [alpha] Herculis 350 2.7-3.6, 5.4 Albireo AB [beta] Cygni 400 3.2, 4.7 Albireo AaAc [beta] Cygni 400 3.4, 5.2 Delta Cyg AB [delta] Cygni 170 2.9, 6.3 Delta Cyg AC [delta] Cygni 170 2.9,12.0 Object Size/Sep RA Dec. Izar 2.9" [14.sup.h] [45.0.sup.m] +27[degrees]04' Alkalurops AB 109" [15.sup.h] [24.5.sup.m] +37[degrees]23' Alkalurops BaBb 2.2" [15.sup.h] [24.5.sup.m] +37[degrees]21' Rasalgethi 4.6" [17.sup.h] [14.6.sup.m] +14[degrees]23' Albireo AB 34.3" [19.sup.h] [30.7.sup.m] +27[degrees]58' Albireo AaAc 0.4" [19.sup.h] [30.7.sup.m] +27[degrees]58' Delta Cyg AB 2.8" [19.sup.h] [45.0.sup.m] +45[degrees]08' Delta Cyg AC 62.6" [19.sup.h] [45.0.sup.m] +45[degrees]08' Angular sizes and separations are from recent catalogs. Visually, an object's size is often smaller than the cataloged value and varies according to the aperture and magnification of the viewing instrument. Right ascension and declination are for equinox 2000.0.
|Printer friendly Cite/link Email Feedback|
|Title Annotation:||SEPTEMBER 2017 OBSERVING: Deep -Sky Wonders|
|Publication:||Sky & Telescope|
|Date:||Aug 17, 2017|
|Previous Article:||The enduring mystery of Luna 2: amateur observers claimed to see its impact--but no trace of the crash site has ever been found.|
|Next Article:||M17: the Nebula With too many names: follow this observers guide to find one of the best H II regions in the night sky.|