Unruh-Verlinde temperature and energy of (2+1)-dimensional matter coupled black hole via entropic force

HAN Yi-Wen; BAO Zhi-Qing; HONG Yun

doi:10.1088/1674-1137/35/7/003

Chinese Physics C> 2011, Vol. 35> Issue(7) : 612-615 DOI: 10.1088/1674-1137/35/7/003

Unruh-Verlinde temperature and energy of (2+1)-dimensional matter coupled black hole via entropic force

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Abstract：
Verlinde's recent work, which shows that gravity may be explained as an entropic force caused by the changes in information associated with the positions of material bodies, is extended to study the Unruh-Verlinde temperature and energy of a static spherically symmetric charged black hole. The results indicate that the Unruh-Verlinde temperature is equal to the Hawking temperature at the event horizon. The energy is dependent on the radius of the screen, which is also a consequence of the Gauss' laws of gravity and electrostatics.

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HAN Yi-Wen, BAO Zhi-Qing and HONG Yun. Unruh-Verlinde temperature and energy of (2+1)-dimensional matter coupled black hole via entropic force[J]. Chinese Physics C, 2011, 35(7): 612-615. doi: 10.1088/1674-1137/35/7/003

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Received: 2010-09-26
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沈阳化工大学材料科学与工程学院沈阳 110142

Unruh-Verlinde temperature and energy of (2+1)-dimensional matter coupled black hole via entropic force

Received Date: 2010-09-26

Accepted Date: 2010-10-26

Available Online: 2011-07-05

Abstract: Verlinde's recent work, which shows that gravity may be explained as an entropic force caused by the changes in information associated with the positions of material bodies, is extended to study the Unruh-Verlinde temperature and energy of a static spherically symmetric charged black hole. The results indicate that the Unruh-Verlinde temperature is equal to the Hawking temperature at the event horizon. The energy is dependent on the radius of the screen, which is also a consequence of the Gauss' laws of gravity and electrostatics.

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Unruh-Verlinde temperature and energy of (2+1)-dimensional matter coupled black hole via entropic force

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Unruh-Verlinde temperature and energy of (2+1)-dimensional matter coupled black hole via entropic force

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