What Makes the Galaxy Go Round: Powerful Black Hole Jets Channeling Rotational Energy Measured
Astrophysicists observe hundreds of relativistic jets — enormous outflows of matter emitted by active galactic nuclei harboring supermassive black holes. The matter in a jet is accelerated nearly to the speed of light, hence the term “relativistic.” Jets are colossal, even by astronomical standards: Their length can be up to several percent of the radius of the host galaxy, or about 300,000 times larger than the associated black hole.
The matter orbiting a black hole and falling onto it is referred to as the accretion disk. It plays a crucial role in jet formation. A black hole taken together with its accretion disk and jets (fig. 1) is thought to be the most effective “machine” for converting energy: If you define the efficiency of such a system as the ratio of the energy carried away by the jets to the energy of the accreted matter, it may even exceed 100 percent.
Credit: MIPT Press Office
By accretion, a black hole gains angular momentum — that is, it starts spinning faster. Jets carry away some of this excess angular momentum in what is known as rotational energy extraction. Similar effects are observed in young stars: During the formation of a star, it captures the matter of the accretion disk, which has enormous angular momentum. However, observations show such stars actually rotate rather slowly. All of the missing angular momenta is used up to power the narrow jets emitted by these stars.
Scientists have recently come up with a new method for measuring the magnetic fields in the jets emitted by the active galactic nuclei. In her paper, astrophysicist Elena Nokhrina showed that this method can be used to estimate the contribution of black hole rotation to jet power. Up until now, the formula for the channeling of rotational energy into the energy of the jet has not been tested empirically. Unfortunately, no reliable observations so far have captured black hole rotation rate, which is important for estimating the loss of rotational energy.
Figure 2: This is a transverse structure of the magnetic field of a jet.
A black hole does not have a magnetic field of its own. However, a vertical magnetic field is generated around it by the ionized matter in the accretion disk. To estimate the loss of rotational energy by a black hole, scientists need to find the magnetic flux through the boundary around a black hole known as the event horizon.
“Because the magnetic flux is conserved, by measuring its magnitude in the jet, we also learn the magnetic flux near the black hole. Knowing the black hole’s mass, we can calculate the distance from its rotation axis to the event horizon — its notional boundary. This allows us to estimate the electric potential difference between the axis of rotation and the boundary of the black hole. By accounting for the electric field screening in plasma, it is possible to find the electric current near the black hole. Knowing both the current and the difference of potentials, we can estimate the amount of energy lost by the black hole due to the slowing down of its rotation,” says Elena Nokhrina, the author of the paper and deputy head of the relativistic astrophysics laboratory at MIPT.
The calculations point toward a correlation between the total power of a jet emitted by a black hole and the loss of rotational energy by the black hole. Notably, this study makes use of a recent model of jet structure (fig. 2). Before this model was advanced, researchers assumed jets to have homogeneous transverse structure, which is a simplification. In the new model, the magnetic field of a jet is not homogeneous, enabling more accurate predictions.
Most of the galaxies hosting jets are too remote for the transverse structure of their magnetic fields to be discerned. So the experimentally measured magnetic field is compared with its model transverse structure to estimate the magnitude of the field’s components. Only by taking transverse structure into account is it possible to test the mechanism of black hole rotation powering jets. Otherwise, it would be necessary to know the rotation rate.
The hypothesis that was put to the test in the study states that jet power depends on the magnetic flux and the rotation rate of the black hole. This makes it possible to gauge to what extent a jet is powered by rotational energy. Notably, this theoretical work enables us to estimate how much rotational energy is lost by a black hole without knowing its rotation rate — using only the magnetic field measurements of the jet.
This study was supported by the Russian Science Foundation, grant 16-12-10051.
Ilyana Zolotareva
Citation: The Correlation between the Total Magnetic Flux and the Total Jet Power Elena E. Nokhrina http://dx.doi.org/10.3389/fspas.2017.00063
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