Presentation is loading. Please wait.

Presentation is loading. Please wait.

19 Years Timing of J1713+0747 Weiwei Zhu NANOGrav Timing Group 2012-08-22.

Published bySabrina Opal Goodwin Modified over 8 years ago

Similar presentations

Presentation on theme: "19 Years Timing of J1713+0747 Weiwei Zhu NANOGrav Timing Group 2012-08-22."— Presentation transcript:

1 19 Years Timing of J1713+0747 Weiwei Zhu NANOGrav Timing Group 2012-08-22

2 J1713+0747 One of the longest/best timed pulsars – ~52ns time precision and improving, (Demorest et al. 2012, this work) – 19 years total time span P= 4.6ms, P b = 68 day (Foster et al. 1993) Mark3 (441ns) ABPP (86ns) Mark4 (152ns) ASP (52ns) GASP( 136ns )

3 What can we do with this pulsar? Constrain gravitational wave background level Great laboratory for testing fundamental physics principles – Strong equivalence principle – Lorenz invariance/conservation of momentum Excellent strong-field test for Einstein’s general relativity and constrains for alternative theories.

4 Gravitational Wave Background Level 5-Year single pulsar GW upper limit A 1 ~10 -14 (Demorest et al. 2012), a factor of a few higher than the limit from all pulsars. A new single-pulsar GW background limit may be derived from our 19 years timing solution. Demorest et al.2012

5 Testing Fundamental Physics Principles -- Test Strong Equivalence Principle Damour & Schafer 1991; Wex 1997, 2000; Bell & Damour 1996; Stairs 2003; Splaver et al. 2005; Gonzalez et al. 2011; 0.3M ʘ 1.4M ʘ (Stairs et al. 2005, Gonzalez et al. 2011)

6 Existence of A Preferred Frame? A preferred Frame breaks down Lorenz Invariance/conservation of momentum. Acceleration and forced eccentricity. Preferred Frame (Stairs et al. 2005, Gonzalez et al. 2011)

7 Ω i

8 Test Fundamental Physics Principles Markov Chain Monte Carlo estimation of the parameters Blue: Other pulsar binaries (Gonzalez et al 11) Red: J1713+0747

9 [J0437-4715, Deller et al. 08] [J1012+5307, Lazaridis et al. 09] [J1738+0333, Freire et al. 12] [J1713+0747, this work, 68%CL] 52ns precision/68 day orbital period  measuring the slowest fractional change over time The Changing P b – test Einstein’s GR

10 Constrain Alternate Theory of Gravitation Constraint based on J1012 J1738 and J1713 Lunar Laser Ranging; Hofmann et al. 2010 J0437&J1738; Freire et al 2012 J0437&J1738; Freire et al 2012 Our Constraint based on J1012, J1738 and J1713:

11 Summary As one of the best high-precision pulsars, J1713+0747 can: – strongly constrain gravitational wave background level – test fundamental physical principles – test/constrain theories of General Relativity

12 Thank You

Download ppt "19 Years Timing of J1713+0747 Weiwei Zhu NANOGrav Timing Group 2012-08-22."

Similar presentations

Inspiraling Compact Objects: Detection Expectations

Inspiraling Compact Objects: Detection Expectations
A New Relativistic Binary Pulsar: Gravitational Wave Detection and Neutron Star Formation Vicky Kalogera Physics & Astronomy Dept with Chunglee Kim (NU)

A New Relativistic Binary Pulsar: Gravitational Wave Detection and Neutron Star Formation Vicky Kalogera Physics & Astronomy Dept with Chunglee Kim (NU)
Discovery of a Highly Eccentric Binary Millisecond Pulsar in a Gamma-Ray- Detected Globular Cluster Megan DeCesar (UWM) In collaboration with Scott Ransom.

Discovery of a Highly Eccentric Binary Millisecond Pulsar in a Gamma-Ray- Detected Globular Cluster Megan DeCesar (UWM) In collaboration with Scott Ransom.
Sagittarius debris in SDSS stripe 82 Zhu Ling ( 朱玲 ) & Martin. C. Smith Center for Astrophysics, Tsinghua university KIAA at Peking University.

Sagittarius debris in SDSS stripe 82 Zhu Ling ( 朱玲 ) & Martin. C. Smith Center for Astrophysics, Tsinghua university KIAA at Peking University.
Outline of the Lectures Lecture 1: The Einstein Equivalence Principle Lecture 2: Post-Newtonian Limit of GR Lecture 3: The Parametrized Post-Newtonian.

Outline of the Lectures Lecture 1: The Einstein Equivalence Principle Lecture 2: Post-Newtonian Limit of GR Lecture 3: The Parametrized Post-Newtonian.
Pulsars – progress and puzzles 1 Jocelyn Bell Burnell University of Oxford Astrophysics & Mansfield College.

Pulsars – progress and puzzles 1 Jocelyn Bell Burnell University of Oxford Astrophysics & Mansfield College.
Testing Gravity with Lunar Laser Ranging James Battat August 9, 2005.

Testing Gravity with Lunar Laser Ranging James Battat August 9, 2005.
Radiative B Decays (an Experimental Overview) E.H. Thorndike University of Rochester CLEO Collaboration FPCP May 18, 2002.

Radiative B Decays (an Experimental Overview) E.H. Thorndike University of Rochester CLEO Collaboration FPCP May 18, 2002.
Physical Constraints on Gauss-Bonnet Dark Energy Cosmologies Ishwaree Neupane University of Canterbury, NZ University of Canterbury, NZ DARK 2007, Sydney.

Physical Constraints on Gauss-Bonnet Dark Energy Cosmologies Ishwaree Neupane University of Canterbury, NZ University of Canterbury, NZ DARK 2007, Sydney.
Gravitational Wave Detection Using Pulsar Timing Current Status and Future Progress Fredrick A. Jenet Center for Gravitational Wave Astronomy University.

Gravitational Wave Detection Using Pulsar Timing Current Status and Future Progress Fredrick A. Jenet Center for Gravitational Wave Astronomy University.
Gas Driven Supermassive Black Hole Binaries: periodic quasar variability and the gravitational wave background Bence Kocsis (CFA) Einstein Symposium, 10/26/2009.

Gas Driven Supermassive Black Hole Binaries: periodic quasar variability and the gravitational wave background Bence Kocsis (CFA) Einstein Symposium, 10/26/2009.
07-1 Physics I Class 07 Momentum and Impulse. 07-2 Momentum of an Object Definitions.

07-1 Physics I Class 07 Momentum and Impulse Momentum of an Object Definitions.
Vicky Kalogera with Bart Willems Mike Henninger Formation of Double Neutron Stars: Kicks and Tilts Department of Physics and Astronomy.

Vicky Kalogera with Bart Willems Mike Henninger Formation of Double Neutron Stars: Kicks and Tilts Department of Physics and Astronomy.
Gravity with the SKA Michael Kramer Jodrell Bank Observatory University of Manchester With Don Backer, Jim Cordes, Simon Johnston, Joe Lazio and Ben Stappers.

Gravity with the SKA Michael Kramer Jodrell Bank Observatory University of Manchester With Don Backer, Jim Cordes, Simon Johnston, Joe Lazio and Ben Stappers.
The Strongly Relativistic Double Pulsar and LISA Vicky Kalogera Physics & Astronomy Dept with Chunglee Kim (NU) Duncan Lorimer (Manchester)

The Strongly Relativistic Double Pulsar and LISA Vicky Kalogera Physics & Astronomy Dept with Chunglee Kim (NU) Duncan Lorimer (Manchester)
D epartment of P hysics Brown APJC – August 2008 Recent Precision Tests of General Relativity Thomas P. Kling Brown Astrophysics Journal Club August 2008.

D epartment of P hysics Brown APJC – August 2008 Recent Precision Tests of General Relativity Thomas P. Kling Brown Astrophysics Journal Club August 2008.
05-1 Physics I Class 05 Impulse and Momentum. 05-2 Momentum of an Object Definitions.

05-1 Physics I Class 05 Impulse and Momentum Momentum of an Object Definitions.
5 Gravitation. The Milky Way galaxy and the black hole.

5 Gravitation. The Milky Way galaxy and the black hole.
Timing Relativistic Binary Pulsars to test Gravitation and measure NS masses Paulo C. C. Freire Arecibo Observatory / Cornell University.

Timing Relativistic Binary Pulsars to test Gravitation and measure NS masses Paulo C. C. Freire Arecibo Observatory / Cornell University.
He star evolutionary channel to intermediate-mass binary pulsars with a short-orbital-period Chen Wen-Cong School of Physics, Peking University Department.

He star evolutionary channel to intermediate-mass binary pulsars with a short-orbital-period Chen Wen-Cong School of Physics, Peking University Department.

Similar presentations

Ads by Google