Homepage of Wen Zhao in Search

Analytic Calculation of CMB Power Spectra(on the topic of relic gravitational waves)
Numerical Calculation of CMB Power Spectra

A Line of Sight Approach to Cosmic Microwave Background Anisotropies [U.seljak/1996]
Fluctuations in the Cosmic Microwave Background [M.Zaldarriaga/1998]
CosmoMC [Lewis/2000]
Cosmological parameters from CMB and other data: a Monte-Carlo approach [A.Lewis/2002]
CMBEASY:: an Object Oriented Code for the Cosmic Microwave Background [M.Doran/2003]
Analyze This! A Cosmological Constraint Package for CMBEASY [M.Doran/2003]
Cosmological Markov Chain Monte Carlo simulation with Cmbeasy [C.M.Mueller/2004]
BB Method for the Detection of Relic Gravitational Waves

Detectability of Inflationary Gravitational Waves with Microwave Background Polarization [M.Kamionkowski/1997]
A Polarization Pursuers' Guide [A.H.Jaffe/1999]
Detection of Gravitational Waves from Inflation [M.Kamionkowski/2000]
The nature of the E-B decomposition of CMB polarization [M.Zaldarriaga/2001]
Analysis of CMB polarization on an incomplete sky [A.Lewis/2001]
Detecting magnetic CMB polarization on an incomplete sky [A.Lewis/2001]
Separation of Gravitational-Wave and Cosmic-Shear Contributions to Cosmic Microwave Background Polarization [M.Kesden/2002]
A limit on the detectability of the energy scale of inflation [L.Knox/2002]
Harmonic E/B decomposition for CMB polarization maps [A.Lewis/2003]
Polarized CMB: Reionization and Primordial Tensor modes [A.Cooray/2003]
Gravitational lensing as a contaminant of the gravity wave signal in CMB [U.Seljak/2003]
Cosmic Microwave Background Polarization [B.G.Bartlett/2006]
REVIEW:Weak Gravitational Lensing of the CMB [A.Lewis/2006]
The Maximum B-mode Polarization of the Cosmic Microwave Background from Inhomogeneous Reionization [M.J.Mortonson/2006]
Search for Gravitational Waves in the CMB After WMAP3: Foreground Confusion and The Optimal Frequency Coverage for Foreground Minimization [A.Amblard/2006]
The Future of Cosmology [G.Efstathiou/2007]
B-mode polarization of the CMB from the second-order photon quadrupole [N.Bartolo/2007]
Detectability of CMB tensor B modes via delensing with weak lensing galaxy surveys [L.Marian/2007]
CMB Polarization Systematics Due to Beam Asymmetry: Impact on Inflationary Science [M.Shimon/2007]
TE Method for the Detection of Relic Gravitational Waves

Temperature-Polarization Correlations from Tensor Fluctuations [R.G.Crittenden/1994]
Imprints of Relic Gravitational Waves in Cosmic Microwave Background Radiation [D.Baskaran/2006]
CMB Temperature Polarization Correlation and Primordial Gravitational Waves [A.G.Polnarev/2007]
On the Road to Discovery of Relic Gravitational Waves: the TE and BB Correlations in the Cosmic Microwave Background [W.Zhao/2008]
Current Constraints on Relic Gravitational Waves

Status of CMB Polarization Measurements from DASI and Other Experiments [J.E.Carlstrom/2003]
Scientific optimization of a ground-based CMB polarization experiment [M.Bowden/2003]
Measuring CMB Polarization with BOOMERANG [T.Montroy/2003]
DASI Three-Year Cosmic Microwave Background Polarization Results [E.M.Leith/2004]
CMB observations from the CBI and VSA: A comparison of coincident maps and parameter estimation methods [N.Rajguru/2005]
Cosmological Parameters from the 2003 flight of BOOMERANG [C.J.MacTavish/2005]
A measurement of the polarization-temperature angular cross power spectrum of the Cosmic Microwave Background from the 2003 flight of BOOMERANG [F.Piacentini/2005]
Three Year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Polarization Analysis [L.Page/2006]
The CMB polarization: status and prospects [A.Baibi/2006]
Searching for a Stochastic Background of Gravitational Waves with LIGO [LIGO Scientific Collaboration/2006]
First season QUaD CMB temperature and polarization power spectra [QUaD Collaboration/2007]
Upper bounds on the low-frequency stochastic gravitational wave background from pulsar timing observations: current limits and future prospects [F.A.Jenet/2006]
Observational Constraints on Theories with a Blue Spectrum of Tensor Modes [A.Stewart/2007]
Searching for stochastic gravitational-wave background with the co-located LIGO interferometers [LIGO Scientific Collaboration/2008]
Effects of Prior Assumptions on Bayesian Estimates of Inflation Parameters, and the expected Gravitational Waves Signal from Inflation [W.Valkenburg/2008]
Five-Year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Cosmological Interpretation [E.Komatsu/2008]
New Measurements of Fine-Scale CMB Polarization Power Spectra from CAPMAP at Both 40 and 90 GHz [CAPMAP Collaboration/2008]
Second and third season QUaD CMB temperature and polarization power spectra [QUaD Collaboration/2008]
Is Cosmology Compatible with Blue Gravity Waves ? [R.Camerini/2008]
Future CMB Projects

Scientific optimization of a ground-based CMB polarization experiment [M.Bowden/2003]
Task Force on Cosmic Microwave Background Research [J.Bock/2006]
The Scientific Programme of Planck [Planck Collaboration/2006]
Clover - A B-mode polarization experiment [Clover Collaboration/2006]
Detecting the B-mode Polarisation of the CMB with Clover [Clover Collaboration/2008]
Measuring the Cosmic Microwave Background Radiation (CMBR) polarization with QUIET [QUIET Collaboration/2008]
QUIET - Measuring the CMB polarization with coherent detector arrays [QUIET collaboration/2008]
The Robinson Gravitational Wave Background Telescope (BICEP): a bolometric large angular scale CMB polarimeter [K.W.Yoou/2006]
Spider Optimization: Probing the Systematics of a Large Scale B-Mode Experiment [C.J.MacTavish/2007]
Report by the ESA-ESOWorking Group on Fundamental cosmology [J.A.Peacock/2006]
SPIDER: A Balloon-borne Large-scale CMB Polarimeter [B.P.Crill/2008]
Generation of Relic Gravitational Waves

What would we learn by detecting a gravitational wave signal in the cosmic microwave background anisotropy? [D.H.Lyth/1996]
REVIEW:Particle Physics Models of Inflation and the Cosmological Density Perturbation [D.H.Lyth/1998]
REVIEW:Theoretical tools for CMB physics [M.Giovannini/2004]
Inflationary predictions for scalar and tensor fluctuations reconsidered [L.A.Boyle/2005]
Enhanced polarization of CMB from thermal gravitational waves [K.Bhattacharya/2006]
REVIEW:Why CMB physics? [M.Giovannini/2004]
REVIEW:Relativistic cosmology and large-scale structure [C.G.Tsagas/2007]
Gravitational waves from galaxy encounters [V.Quilis/2007]
Brane inflation and the WMAP data: a Bayesian analysis [L.Lorenz/2007]
Stochastic Backgrounds of Gravitational Waves from Cosmological Sources: Techniques and Applications to Preheating [L.R.Price/2008]
Probing reheating temperature of the universe with gravitational wave background [K.Nakayama/2008]
Imprints of cosmic strings on the cosmological gravitational wave background [K.Kleidis/2008]
Fine-tuning criteria for inflation and the search for primordial gravitational waves [S.Bird/2008]
An "Ultrasonic Image" of the Embryonic Universe: CMB Polarization Tests of the Inflationary Paradigm [B.G.Keating/2008]
Gravitational waves from fragmentation of a primordial scalar condensate into Q-balls [A.Kusenko/2008]
Statistics of CMB

Determination of Inflationary Observables by Cosmic Microwave Background Anisotropy Experiments [L.Knox/1995]
Karhunen-Loeve eigenvalue problems in cosmology: how should we tackle large data sets? [M.Tegmark/1996]
Fisher Matrix :Karhunen-Loeve eigenvalue problems in cosmology: how should we tackle large data sets? [M.Tegmark/1996]
Fisher Matrix :Microwave Background Constraints on Cosmological Parameters [M.Zaldarriaga/1997]
Fisher Matrix :On model selection forecasting, Dark Energy and modified gravity [A.F.Heavens/2007]
Cosmic Complementarity: Joint Parameter Estimation from CMB Experiments and Redshift Surveys [D.J.Eisenstein/1998]
Likelihood methods for the combined analysis of CMB temperature and polarisation power spectra [W.J.Pervical/2006]
Data analysis methods for the cosmic microwave background [M.Tristram/2007]
A Markov Chain Monte Carlo Algorithm for analysis of low signal-to-noise CMB data [J.B.Jewell/2008]
Bayes in the sky: Bayesian inference and model selection in cosmology [R.Trotta/2008]
Likelihood Analysis of CMB Temperature and Polarization Power Spectra [S.Hamimeche/2008]
Hybrid Estimation of CMB Polarization Power Spectra [G.Efstathiou/2006]
Effects of Destriping Errors on CMB Polarisation Power Spectra and and Pixel Noise Covariances [G.Efstathiou/2006]
Probing cosmological parameters with the CMB: Forecasts from full Monte Carlo simulations [L.Perotto/2006]
Marginal distributions for cosmic variance limited CMB polarization data [H.K.Eriksen/2008]
Limitations of Bayesian Evidence Applied to Cosmology [G.Efstathiou/2008]
Statistical Challenges in the Analysis of Cosmic Microwave Background Radiation [P.Cabella/2008]
Properties and use of CMB power spectrum likelihoods [A.Lewis/2009]
Evolution of Relic Gravitational Waves

Relic Gravitational Waves and Their Detection [L.P.Grishchuk/2000]
Damping of Tensor Modes in Cosmology [S.Weinberg/2003]
Relic gravitational waves and present accelerated expansion [G.Izquierdo/2004]
Comment on "Damping of Tensor Modes in Cosmology" [D.A.Dicus/2005]
Direct detection of the inflationary gravitational wave background [T.L.Smith/2005]
Numeric Spectrum of Relic Gravitational Waves in Accelerating Universe [Y.Zhang/2005]
Relic Gravitational Waves and Cosmology [L.P.Grishchuk/2005]
Relic Gravitational Waves in the Accelerating Universe [Y.Zhang/2005]
Probing the early universe with inflationary gravitational waves [L.A.Boyle/2005]
Relic gravitational waves in the expanding Universe [G.Izquierdo/2006]
Deciphering Inflation with Gravitational Waves: Cosmic Microwave Background Polarization vs. Direct Detection with Laser Interferometers [T.L.Smith/2006]
Evolution of high-frequency gravitational waves in some cosmological models [O.Svitek/2006]
Dynamics of the Inflationary Flow Equations [S.Chongchitnan/2005]
Prospects for direct detection of primordial gravitational waves [S.Chongchitnan/2006]
The Search For Primordial Tensor Modes [G.Efstathiou/2006]
Relic gravitational waves and their detection [W.Zhao/2006]
WMAP-normalized Inflationary Model Predictions and the Search for Primordial Gravitational Waves with Direct Detection Experiments [B.C.Friedman/2006]
On the evolution of primordial gravitational waves: a semi-analytic detailed approach [M.Soares-Santos/2006]
An exact analytic spectrum of relic gravitational waves in an accelerating universe [Y.Zhang/2006]
Improved Calculation of the Primordial Gravitational Wave Spectrum in the Standard Model [Y.Watanabe/2006]
Improved calculation of relic gravitational waves [W.Zhao/2006]
Analytic spectrum of relic gravitational waves modified by neutrino free streaming and dark energy [H.Miao/2007]
Relating gravitational wave constraints from primordial nucleosynthesis, pulsar timing, laser interferometers, and the CMB: implications for the early universe [L.A.Boyle/2007]
Precision calculations of the gravitational wave background spectrum from inflation [S.Kuroyanagi/2008]
Modifications by QCD transition and $e^+e^-$ annihilation on analytic spectrum of relic gravitational waves in accelerating universe [S.Wang/2008]
Stochastic backgrounds of relic gravitons, T$\Lambda$CDM paradigm and the stiff ages [M.Giovannini/2008]
Thermal history of the plasma and high-frequency gravitons [M.Giovannini/2008]
Stochastic backgrounds of relic gravitons: a theoretical appraisal[M.Giovannini/2009]
Other Relating Papers

Cosmological Perturbation Theory in the Synchronous and Conformal Newtonian Gauges [C.P.Ma/1995]
Wandering in the Background: A CMB Explorer [W.Hu/1995]
Cosmological Signature of New Parity-Violating Interactions [A.Lue/1998]
Gravitational Wave Astronomy: in Anticipation of First Sources to be Detected [L.P.Grishchuk/2000]
New physics and astronomy with the new gravitational-wave observatories [S.A.Hughes/2001]
Listening to the Universe with Gravitational-Wave Astronomy [S.A.Hughes/2002]
The Cosmic Microwave Background and Helical Magnetic Fields: the tensor mode [C.Caprini/2003]
Update on gravitational-wave research [L.P.Grishchuk/2003]
Very high frequency gravitational wave background in the universe [G.S.Bisnovatyi-Kogan/2004]
An indirect limit on the amplitude of primordial Gravitational Wave Background from CMB-Galaxy Cross Correlation [A.Cooray/2005]
A new cosmic microwave background constraint to primordial gravitational waves [T.Smith/2006]
Weak Lensing of the Cosmic Microwave Background by Foreground Gravitational Waves [C.Li/2006]
Gravitational wave radiometry: Mapping a stochastic gravitational wave background [S.Mitra/2007]
Detecting very-high-frequency relic gravitational waves by electromagnetic wave polarizations in a waveguide [M.Tong/2007]
Lecture Notes on CMB Theory: From Nucleosynthesis to Recombination [W.Hu/2008]
On the degeneracy between primordial tensor modes and cosmic strings in future CMB data from Planck [J.Urrestilla/2008]
CMB polarization induced by stochastic magnetic fields [M.Giovannini/2008]
Constraining primordial magnetic fields with CMB polarization experiments [J.R.Kristiansen/2008]
The stochastic gravitational-wave background from massive black hole binary systems: implications for observations with Pulsar Timing Arrays [A.Sesana/2008]
Using polarized maser to detect high-frequency relic gravitational waves [M.Tong/2008]