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Reduced Mass Coordinates: Isolated Two-body Problem01:12

Reduced Mass Coordinates: Isolated Two-body Problem

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In classical mechanics, the two-body problem is one of the fundamental problems describing the motion of two interacting bodies under gravity or any other central force. When considering the motion of two bodies, one of the most important concepts is the reduced mass coordinates, a quantity that allows the two-body problem to be solved like a single-body problem. In these circumstances, it is assumed that a single body with reduced mass revolves around another body fixed in a position with an...
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Detection of Black Holes01:10

Detection of Black Holes

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Although black holes were theoretically postulated in the 1920s, they remained outside the domain of observational astronomy until the 1970s.
Their closest cousins are neutron stars, which are composed almost entirely of neutrons packed against each other, making them extremely dense. A neutron star has the same mass as the Sun but its diameter is only a few kilometers. Therefore, the escape velocity from their surface is close to the speed of light.
Not until the 1960s, when the first neutron...
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Schwarzschild Radius and Event Horizon01:21

Schwarzschild Radius and Event Horizon

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No object with a finite mass can travel faster than the speed of light in a vacuum. This fact has an interesting consequence in the domain of extremely high gravitational fields.
The minimum speed required to launch a projectile from the surface of an object to which it is gravitationally bound so that it eventually escapes the object’s gravitational field is called the escape velocity. The escape velocity is independent of the mass of the object. Merging the idea of escape...
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Gravitation Between Spherically Symmetric Masses01:14

Gravitation Between Spherically Symmetric Masses

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The gravitational potential energy between two spherically symmetric bodies can be calculated from the masses and the distance between the bodies, assuming that the center of mass is concentrated at the respective centers of the bodies.
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Conservation of Angular Momentum: Application01:18

Conservation of Angular Momentum: Application

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A system's total angular momentum remains constant if the net external torque acting on the system is zero. Examples of such systems include a freely spinning bicycle tire that slows over time due to torque arising from friction, or the slowing of Earth's rotation over millions of years due to frictional forces exerted on tidal deformations. However in the absence of a net external torque, the angular momentum remains conserved. The conservation of angular momentum principle requires a...
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Spin–Spin Coupling: Two-Bond Coupling (Geminal Coupling)01:20

Spin–Spin Coupling: Two-Bond Coupling (Geminal Coupling)

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Two NMR-active nuclei bonded to a central atom can be involved in geminal or two-bond coupling. Geminal coupling is commonly seen between diastereotopic protons in chiral molecules and unsymmetrical alkenes, among others.
The central atom need not be NMR-active because its electrons are affected by the electron polarization of the spin-active atoms. However, spin information is transmitted less effectively than in one-bond coupling, and 2J values are usually weaker than 1J values. The energy of...
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Updated: Jan 4, 2026

Setting Limits on Supersymmetry Using Simplified Models
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Setting Limits on Supersymmetry Using Simplified Models

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A noninteracting low-mass black hole-giant star binary system.

Todd A Thompson1,2,3, Christopher S Kochanek4,2, Krzysztof Z Stanek4,2

  • 1Department of Astronomy, The Ohio State University, 140 W. 18th Ave., Columbus, OH 43210, USA. thompson.1847@osu.edu.

Science (New York, N.Y.)
|November 2, 2019
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Summary

Researchers discovered a massive unseen companion to a giant star using radial velocity and photometric data. This non-interacting black hole or neutron star system challenges previous detection methods for such binaries.

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Area of Science:

  • Astronomy and Astrophysics
  • Stellar Evolution
  • Binary Systems

Background:

  • X-ray emission is the typical method for detecting black hole binary systems with companion stars.
  • Non-interacting binaries are predicted to be common but require alternative detection strategies.
  • The study focuses on identifying such systems through indirect observational methods.

Purpose of the Study:

  • To investigate the nature of the massive unseen companion of the giant star 2MASS J05215658+4359220.
  • To demonstrate a novel method for detecting non-interacting binary systems.
  • To constrain the mass of the unseen companion.

Main Methods:

  • Combining radial velocity measurements with photometric variability data.
  • Analyzing the orbital period and eccentricity of the binary system.
  • Utilizing stellar parameters of the visible giant star to infer companion properties.

Main Results:

  • The bright giant star 2MASS J05215658+4359220 is confirmed to be in a binary system with a massive unseen companion.
  • The system exhibits an orbital period of approximately 83 days and near-zero eccentricity.
  • The unseen companion's mass is estimated to be between 5 and 10 solar masses, consistent with a low-mass black hole or a massive neutron star.

Conclusions:

  • The findings suggest that non-interacting black hole binaries can be detected using combined radial velocity and photometric variability analysis.
  • The detected companion could be a low-mass black hole or an unusually massive neutron star, providing new insights into compact object formation.
  • This study highlights the importance of exploring alternative methods for discovering binary systems that do not exhibit X-ray emission.