This is a spectroscopic binary system, which means that the presence of an orbiting companion has been revealed by radial velocity variations in the spectrum of the primary. The two components are orbiting each other with a period of 14 days at a high orbital eccentricity of 0.55. The secondary component has about 6–13% of the primary's mass and may have a stellar classification in the range from A6 V to K1 V. There may be a third component to this system with an orbital period of roughly 9,428 days (25.8 years), although this has not been conclusively demonstrated. If this component exists, it would have about 51–139% of the primary's mass. This high level of uncertainty is because the inclination of the orbit is not known.[5]
The primary component of this system is a massive star with 12–16[5] times the Sun's mass and near eight times the radius of the Sun.[6] It was chosen as an MK spectral standard for the class B0.5III,[3] making it a giant star that has evolved away from the main sequence. It has also been classified as a main sequence star, reflecting its evolutionary state near or slightly beyind the end of core hydrogen fusion.[6] Component A is radiating over 28,000[7] times the Sun's luminosity from its outer envelope at an effective temperature of 26,500 K.[7] This gives the star the blue-white hue that is typical of B-type stars.[12] It is also a Beta Cephei variable star with a primary pulsation period of 0.1603 days, or 6.24 cycles per day. It may have multiple pulsation frequencies.[4]
Epsilon Persei has several resolved companions listed in multiple star catalogues: component B is a 9th-magnitude A2 main sequence star 9″ away and considered to be a common proper motion companion although they are too far apart for any orbital motion to be observed; component C is a 14th-magnitude background star about 80″ away; and HD 275984 163″ away is thought to be another common-proper-motion companion.[13][9]