Sky & Telescope - USA (2019-09)

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skyandtelescope.com • SEPTEMBER 2019 57

Microquasars

They may be challenging to observe, but the visible

companions in microquasars are exciting to pursue.

E

very generation of astronomers is

dealt a deep and profound mystery

to solve. In the late 1970s, the mystery

was the discovery of a “star” with very

unusual properties, leading astronomers

to suspect they were onto a new class of

phenomena. This object, SS 433, was the

433rd listed in a 1977 catalog of Milky

Way H-alpha emission stars compiled

by C. Bruce Stephenson and Nicholas

Sanduleak, astronomers at Case Western

Reserve University. Subsequent observa-

tions showed that its optical spectrum

exhibited peculiar emission lines; it also

turned out to be a variable source at radio

and X-ray wavelengths. But what clinched

the mystery was the discovery of a some-

what elongated feature in the radio data.

This combination of properties couldn’t

be reconciled to any single known model.

At the time, no one could imagine that a

miniature version of a remote quasar was

sitting in our backyard.

Going Deep by Dave Tosteson

By the end of the 1970s, a model

attributing bipolar jets to explain the

elongated radio emission was proposed.

However, it wasn’t until the early

1990s, when a double-sided radio jet

was imaged emanating from a source

near the galactic center, that the term

“microquasar” fi rmly took hold to

describe this particular class of object.

At the time of the discovery of

SS 433, astronomers contemplated the

following scenario to explain the com-

plexity of its emission: a binary stellar

pair in which a compact object, either

a black hole or a neutron star, pulls in

matter from its unevolved, or donor,

companion. This matter spirals into an

accretion disk, which heats up due to

friction, around the compact object. The

system’s intense gravitational energy

and (possibly) coiled magnetic fi eld

lines help launch a pair of bipolar jets.

The jets can be accelerated to a signifi -

cant fraction of the speed of light, and,

when the geometry is just right, can

appear to be traveling faster than the

speed of light, a phenomenon described

as superluminal. Once a working model

was available, researchers set out to fi nd

as many examples of this type of object

as possible to test their theories.

Only the companion stars are acces-

sible to amateur astronomers (although

accretion discs around the compact

objects can contribute to the visible

light output). To my knowledge, nei-

ther jets nor other features associated

with microquasars can be seen in the

eyepiece, one exception being SS 433’s

supernova remnant, W50. Neverthe-

less, bearing in mind how remarkable

pCYGNUS X-1 The microquasar with the

brightest companion in our sample, Cyg X-1

was the fi rst galactic system in which a black

hole was identifi ed. This Palomar Digital Sky

Survey image is 1° across.

η Cyg

Cygnus X-1

Sh 2-101