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Visualizing spacetime curvature via frame-drag vortexes and tidal tendexes. II. Stationary black holes

Zhang, Fan and Zimmerman, Aaron and Nichols, David A. and Chen, Yanbei and Lovelace, Geoffrey and Matthews, Keith D. and Owen, Robert and Thorne, Kip S. (2012) Visualizing spacetime curvature via frame-drag vortexes and tidal tendexes. II. Stationary black holes. Physical Review D, 86 (8). Art. No. 084049. ISSN 2470-0010.

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When one splits spacetime into space plus time, the Weyl curvature tensor (which equals the Riemann tensor in vacuum) splits into two spatial, symmetric, traceless tensors: the tidal field E, which produces tidal forces, and the frame-drag field B, which produces differential frame dragging. In recent papers, we and colleagues have introduced ways to visualize these two fields: tidal tendex lines (integral curves of the three eigenvector fields of E) and their tendicities (eigenvalues of these eigenvector fields); and the corresponding entities for the frame-drag field: frame-drag vortex lines and their vorticities. These entities fully characterize the vacuum Riemann tensor. In this paper, we compute and depict the tendex and vortex lines, and their tendicities and vorticities, outside the horizons of stationary (Schwarzschild and Kerr) black holes; and we introduce and depict the black holes’ horizon tendicity and vorticity (the normal-normal components of E and B on the horizon). For Schwarzschild and Kerr black holes, the horizon tendicity is proportional to the horizon’s intrinsic scalar curvature, and the horizon vorticity is proportional to an extrinsic scalar curvature. We show that, for horizon-penetrating time slices, all these entities (E, B, the tendex lines and vortex lines, the lines’ tendicities and vorticities, and the horizon tendicities and vorticities) are affected only weakly by changes of slicing and changes of spatial coordinates, within those slicing and coordinate choices that are commonly used for black holes. We also explore how the tendex and vortex lines change as the spin of a black hole is increased, and we find, for example, that as a black hole is spun up through a dimensionless spin a/M=√3/2, the horizon tendicity at its poles changes sign, and an observer hovering or falling inward there switches from being stretched radially to being squeezed. At this spin, the tendex lines that stick out from the horizon’s poles switch from reaching radially outward toward infinity to emerging from one pole, swinging poloidally around the hole and descending into the other pole.

Item Type:Article
Related URLs:
URLURL TypeDescription
Zhang, Fan0000-0002-3643-018X
Chen, Yanbei0000-0002-9730-9463
Lovelace, Geoffrey0000-0002-7084-1070
Additional Information:© 2012 American Physical Society. Received 15 August 2012; published 26 October 2012. We thank Jeandrew Brink and Jeff Kaplan for helpful discussions. We would like to thank Mark Scheel for helpful discussions and for version control assistance and Béla Szilágyi for his help on numerical grid construction. A. Z. would also like to thank the National Institute for Theoretical Physics of South Africa for hosting him during a portion of this work. Some calculations have been performed using the Spectral Einstein Code (SPEC) [7] on the Caltech computer cluster ZWICKY. This research was supported by NSF Grants No. PHY-0960291 and No. PHY-1068881 and CAREER Grant No. PHY-0956189 at Caltech, by NSF Grants No. PHY-0969111 and No. PHY-1005426 at Cornell, by NASA Grant No. NNX09AF97G at Caltech, by NASA Grant No. NNX09AF96G at Cornell, and by the Sherman Fairchild Foundation at Caltech and Cornell, the Brinson Foundation at Caltech, and the David and Barbara Groce fund at Caltech.
Funding AgencyGrant Number
Sherman Fairchild FoundationUNSPECIFIED
Brinson FoundationUNSPECIFIED
David and Barbara Groce fundUNSPECIFIED
Issue or Number:8
Classification Code:PACS: 04.25.dg, 04.70.Bw
Record Number:CaltechAUTHORS:20121127-085424231
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Usage Policy:No commercial reproduction, distribution, display or performance rights in this work are provided.
ID Code:35661
Deposited By: Jason Perez
Deposited On:27 Nov 2012 19:24
Last Modified:09 Mar 2020 13:19

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