Lasky, Paul D. ; Mingarelli, Chiara M. F. ; Smith, Tristan L. ; Giblin Jr., John T. ; Thrane, Eric ; Reardon, Daniel J. ; Caldwell, Robert ; Bailes, Matthew ; Bhat, N. D. Ramesh ; Burke-Spolaor, Sarah ; Dai, Shi ; Dempsey, James
Quantum fluctuations of the gravitational field in the early Universe, amplified by inflation, produce a primordial gravitational-wave background across a broad frequency band. We derive constraints on the spectrum of this gravitational radiation, and hence on theories of the early Universe, by combining experiments that cover 29 orders of magnitude in frequency. These include Planck observations of cosmic microwave background temperature and polarization power spectra and lensing, together with baryon acoustic oscillations and big bang nucleosynthesis measurements, as well as new pulsar timing array and ground-based interferometer limits. While individual experiments constrain the gravitational-wave energy density in specific frequency bands, the combination of experiments allows us to constrain cosmological parameters, including the inflationary spectral index n(t) and the tensor-to-scalar ratio r. Results from individual experiments include the most stringent nanohertz limit of the primordial background to date from the Parkes Pulsar Timing Array, Omega(GW)(f) < 2.3 x 10(-10). Observations of the cosmic microwave background alone limit the gravitational-wave spectral index at 95% confidence to n(t) less than or similar to 5 for a tensor-to-scalar ratio of r = 0.11. However, the combination of all the above experiments limits n(t) < 0.36. Future Advanced LIGO observations are expected to further constrain n(t) < 0.34 by 2020. When cosmic microwave background experiments detect a nonzero r, our results will imply even more stringent constraints on nt and, hence, theories of the early Universe.
Lasky PD, Mingarelli CMF, Smith TL, et al. Gravitational-Wave Cosmology across 29 Decades in Frequency. Physical Review X. 2016;6(1): 011035.
Lasky, P. D., Mingarelli, C. M. F., Smith, T. L., Giblin Jr., J. T., Thrane, E., Reardon, D. J., Caldwell, R., et al. (2016). Gravitational-Wave Cosmology across 29 Decades in Frequency. Physical Review X, 6(1), 011035. doi:10.1103/PhysRevX.6.011035
Lasky, P. D., Mingarelli, C. M. F., Smith, T. L., Giblin Jr., J. T., Thrane, E., Reardon, D. J., Caldwell, R., Bailes, M., Bhat, N. D. R., Burke-Spolaor, S., et al. (2016). Gravitational-Wave Cosmology across 29 Decades in Frequency. Physical Review X 6:011035.
Lasky, P.D., et al., 2016. Gravitational-Wave Cosmology across 29 Decades in Frequency. Physical Review X, 6(1): 011035.
P.D. Lasky, et al., “Gravitational-Wave Cosmology across 29 Decades in Frequency”, Physical Review X, vol. 6, 2016, : 011035.
Lasky, P.D., Mingarelli, C.M.F., Smith, T.L., Giblin Jr., J.T., Thrane, E., Reardon, D.J., Caldwell, R., Bailes, M., Bhat, N.D.R., Burke-Spolaor, S., Dai, S., Dempsey, J., Hobbs, G., Kerr, M., Levin, Y., Manchester, R.N., Oslowski, S., Ravi, V., Rosado, P.A., Shannon, R.M., Spiewak, R., van Straten, W., Toomey, L., Wang, J., Wen, L., You, X., Zhu, X.: Gravitational-Wave Cosmology across 29 Decades in Frequency. Physical Review X. 6, : 011035 (2016).
Lasky, Paul D., Mingarelli, Chiara M. F., Smith, Tristan L., Giblin Jr., John T., Thrane, Eric, Reardon, Daniel J., Caldwell, Robert, Bailes, Matthew, Bhat, N. D. Ramesh, Burke-Spolaor, Sarah, Dai, Shi, Dempsey, James, Hobbs, George, Kerr, Matthew, Levin, Yuri, Manchester, Richard N., Oslowski, Stefan, Ravi, Vikram, Rosado, Pablo A., Shannon, Ryan M., Spiewak, Renee, van Straten, Willem, Toomey, Lawrence, Wang, Jingbo, Wen, Linqing, You, Xiaopeng, and Zhu, Xingjiang. “Gravitational-Wave Cosmology across 29 Decades in Frequency”. Physical Review X 6.1 (2016): 011035.
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