Sirius, also known as the Dog Star or Sirius A, is the brightest star in Earth's night sky. The name means "glowing" in Greek — a fitting description, as only a few planets, the full moon and the International Space Station outshine this star.

Because Sirius is so bright, it was well-known to the ancients. But the discovery of a companion star, Sirius B, in 1862 surprised astronomers. The star that you can see with the naked eye is called Sirius A, or sometimes just Sirius. (In this article, we will clearly state when we are talking about Sirius B.)

Sirius B is 10,000-times dimmer than Sirius. It's so dim, and therefore so difficult to see from Earth, that astronomers couldn't estimate its mass until 2005, thanks to data from the Hubble Space Telescope.

The constellation Orion and Sirius, the brightest star in the night sky, can be spotted in this shot, taken by Space.com's Megan Gannon in front of the MDM Observatory's 2.4-meter Hiltner telescope atop Kitt Peak in the Arizona desert on March 17, 2014. (Image credit: Megan Gannon)

How to spot Sirius

Sirius is highly visible in the Northern Hemisphere's winter night sky, because the star has a high luminosity, or intrinsic brightness, relativeto other stars, and because it's relatively close to Earth (8.6 light-years away). According to NASA, Sirius has a mass that's two times that of Earth's sun. If the star were placed next to our sun, Sirius would outshine it more than 20 times over.

To find Sirius, use the belt of Orion as a pointer. The belt's three stars point downward toward Sirius to the left. To be more precise, the position of Sirius is:

Right ascension: 6 hours 45 minutes 8.9 seconds

Declination: -16 degrees 42 minutes 58 seconds

Winter brings another opportunity to see starlight from a range of eras. Sirius, the brightest star in the night sky, is only 8.6 light-years away. Meanwhile, the two brightest stars of Orion are distant but shine so brightly because they emit much more light. Betelgeuse is an old, red supergiant star 500 light-years away. It may already have exploded in a supernova blast, but we won't know about it until the light arrives! Blue Rigel is about as bright as Betelgeuse but sits 860 light-years away (Image credit: SkySafari App

Sirius in history

Today, Sirius is nicknamed the "Dog Star" because it is part of the constellation Canis Major, Latin for "the greater dog." The expression "dog days" refers to the period from July 3 through Aug. 11, when Sirius rises in conjunction with the sun. The ancients felt that the combination of the sun during the day and the star at night was responsible for the extreme heat during mid-summer.

The star is present in ancient astronomical records of the Greeks, Polynesians and several other cultures. The Egyptians even went so far as to base their calendar on when Sirius was first visible in the eastern sky, shortly before sunrise. According to Space.com spacewatching columnist Joe Rao, the Egyptians called Sirius the "Nile Star," because it always returned just before the river rose and so announced the coming of the floodwaters that would nourish their lands.

In 1718, English astronomer Edmond Halley discovered that stars have "proper motion" relative to one another. This means that stars, including Sirius, move across our sky with a predictable angular motion with respect to more-distant stars.

More than 100 years after Halley's finding, in 1844, German astronomer Friedrich Wilhelm Bessel published a scientific note in the Monthly Notices of the Royal Astronomical Society describing how Sirius had been deviating from its predicted movement in the sky since 1755. Bessel hypothesized that an unseen companion star affected Sirius' motion. Alvan Graham Clark, a U.S. astronomer and telescope maker, confirmed Bessel's hypothesis in 1862, when the U.S. researchers spotted Sirius B through Clark's newly developed great refractor telescope.

The brightest star in Earth's night sky, Sirius, hovers over a burial mound, called the Leeburg tumulus, in a new image by project nightflight. (Image credit: project nightflight

Studying Sirius

Sirius B is a white dwarf star, which is the last observable stage of a low- to medium-mass star. White dwarfs get dimmer and dimmer until they eventually stop burning and go dark, thus becoming black dwarf stars— the theoretical final stage of a star's evolution. Scientists study white dwarfs like Sirius B in hopes of gaining a better understanding of the stellar cycle. Eventually, Earth's sun will cycle to the white dwarf stage as well.

The mass of a star is an important factor in the object's stellar evolution, because it determines the star's core temperature and how long and hot the star will burn. Astronomers can calculate the mass of a star based on its brightness, or luminosity, but this was challenging for Sirius B. The luminosity of Sirius A overpowered ground-based observations, making it impossible to isolate the much dimmer luminosity coming from Sirius B.

It wasn't until 2005, when a team of astronomers assembled data collected by the Hubble Space Telescope, that scientists were able to measure the mass of Sirius B for the first time. They found that the star has a mass that is 98 percent that of Earth's sun.

To this day, Sirius continues to be a favored study subject for astronomers and physicists.

In April, 2018, NASA launched the Transiting Exoplanet Survey Satellite (TESS), with the aim of finding exoplanets orbiting bright stars. Because Sirius is a young star, it's not likely to have planets orbiting it. Nonetheless, the data TESS collects can be used to study variabilities in star brightness and the appearance of supernovas.