Planck 2015 results: XXIII. The thermal Sunyaev-Zeldovich effect-cosmic infrared background correlation

We test the statistical isotropy and Gaussianity of the cosmic microwave background (CMB) anisotropies using observations made by the Planck satellite. Our results are based mainly on the full Planck mission for temperature, but also include some polarization measurements. In particular, we consider the CMB anisotropy maps derived from the multi-frequency Planck data by several component-separation methods. For the temperature anisotropies, we find excellent agreement between results based on these sky maps over both a very large fraction of the sky and a broad range of angular scales, establishing that potential foreground residuals do not affect our studies. Tests of skewness, kurtosis, multi-normality, N-point functions, and Minkowski functionals indicate consistency with Gaussianity, while a power deficit at large angular scales is manifested in several ways, for example low map variance. The results of a peak statistics analysis are consistent with the expectations of a Gaussian random field. The “Cold Spot” is detected with several methods, including map kurtosis, peak statistics, and mean temperature profile. We thoroughly probe the large-scale dipolar power asymmetry, detecting it with several independent tests, and address the subject of a posteriori correction. Tests of directionality suggest the presence of angular clustering from large to small scales, but at a significance that is dependent on the details of the approach. We perform the first examination of polarization data, finding the morphology of stacked peaks to be consistent with the expectations of statistically isotropic simulations. Where they overlap, these results are consistent with the Planck 2013 analysis based on the nominal mission data and provide our most thorough view of the statistics of the CMB fluctuations to date.

C. A. Oxborrow | R. B. Barreiro | J. Cardoso | J. Tuovinen | R. Laureijs | F. Pasian | L. Valenziano | H. Kurki-Suonio | P. Lilje | N. Aghanim | J. Bartlett | C. Baccigalupi | K. Benabed | M. Kunz | G. Morgante | M. Douspis | J. Delouis | M. Frailis | A. Zacchei | S. Colombi | J. Lesgourgues | A. Melchiorri | J. Rubino-Mart'in | M. White | J. Bobin | O. Forni | T. Ensslin | E. Hivon | A. Banday | F. Hansen | M. Reinecke | M. Hobson | A. Lasenby | M. Bridges | A. Challinor | B. Wandelt | F. Bouchet | S. Matarrese | J. Bock | J. Borrill | P. Bernardis | A. Jaffe | C. Netterfield | R. Stompor | J. Bond | B. Crill | K. Ganga | W. Jones | S. Masi | F. Piacentini | D. Pogosyan | S. Prunet | G. Efstathiou | M. Juvela | J. Diego | A. Moss | S. Mitra | T. Souradeep | H. Peiris | A. Benoit-Lévy | J. McEwen | R. Rebolo | A. Coulais | T. Poutanen | A. Gregorio | Y. Fantaye | P. Christensen | M. Ashdown | F. Sureau | C. Lawrence | B. Rusholme | G. Helou | E. Pierpaoli | R. Davis | T. Kisner | F. Atrio-Barandela | T. Jaffe | H. Eriksen | F. Couchot | S. Plaszczynski | H. Nørgaard-Nielsen | R. Davies | J. Leahy | P. Ade | C. Armitage-Caplan | M. Arnaud | J. Aumont | E. Battaner | A. Benoit | J. Bernard | M. Bersanelli | P. Bielewicz | A. Bonaldi | L. Bonavera | M. Bucher | C. Burigana | R. C. Butler | A. Catalano | A. Chamballu | R. Chary | L. Chiang | H. Chiang | S. Church | D. Clements | L. Colombo | M. Cruz | A. Curto | F. Cuttaia | L. Danese | A. Rosa | G. Zotti | J. Delabrouille | F. D'esert | H. Dole | S. Donzelli | O. Dor'e | X. Dupac | F. Finelli | E. Franceschi | S. Galeotta | M. Giard | G. Giardino | Y. Giraud-H'eraud | J. Gonz'alez-Nuevo | K. M. G'orski | S. Gratton | A. Gruppuso | D. Hanson | D. Harrison | S. Henrot-Versill'e | C. Hern'andez-Monteagudo | D. Herranz | S. Hildebrandt | W. Holmes | A. Hornstrup | W. Hovest | K. Huffenberger | E. Keihanen | R. Keskitalo | J. Knoche | L. Knox | G. Lagache | A. Lahteenmaki | J. Lamarre | R. Leonardi | M. Liguori | M. Linden-Vørnle | M. L'opez-Caniego | P. Lubin | J. Mac'ias-P'erez | B. Maffei | D. Maino | N. Mandolesi | M. Maris | D. Marshall | P. Martin | E. Mart'inez-Gonz'alez | F. Matthai | P. Mazzotta | P. Meinhold | L. Mendes | A. Mennella | M. Migliaccio | K. Mikkelsen | M. Miville-Deschênes | A. Moneti | L. Montier | D. Mortlock | D. Munshi | P. Naselsky | F. Nati | P. Natoli | F. Noviello | D. Novikov | I. Novikov | S. Osborne | F. Paci | L. Pagano | F. Pajot | D. Paoletti | G. Patanchon | O. Perdereau | L. Perotto | F. Perrotta | M. Piat | D. Pietrobon | E. Pointecouteau | G. Polenta | N. Ponthieu | L. Popa | G. Pratt | G. Prezeau | J. Puget | J. Rachen | M. Remazeilles | C. Renault | A. Renzi | S. Ricciardi | T. Riller | I. Ristorcelli | G. Rocha | C. Rosset | G. Roudier | M. Sandri | D. Santos | G. Savini | D. Scott | M. Seiffert | E. Shellard | L. Spencer | J. Starck | R. Sudiwala | D. Sutton | A. Suur-Uski | J. Sygnet | J. Tauber | D. Tavagnacco | L. Terenzi | L. Toffolatti | M. Tomasi | M. Tristram | M. Tucci | M. Turler | J. Valiviita | B. Tent | J. Varis | P. Vielva | F. Villa | N. Vittorio | L. Wade | I. Wehus | A. Wilkinson | D. Yvon | A. Zonca | F. Elsner | M. Massardi | J. Murphy | V. Stolyarov | N. Bartolo | R. Battye | A. Ducout | J. Fergusson | A. Mangilli | D. Marinucci | M. Frommert | C. Leroy | J. Kim | D. Molinari | B. Racine | A. Rotti | B. Ruiz-Granados | P. Sutter | M. Hansen | C. Rath | J. Bock | D. Scott | P. Christensen | D. Scott | S. Mitra | J. Murphy | D. Scott | G. Rocha | J. Murphy | G. Pr'ezeau | J. Bond | D. Harrison | C. Lawrence | D. Marshall

[1]  G. W. Pratt,et al.  Planck 2013 results. XI. All-sky model of thermal dust emission , 2013, 1312.1300.

[2]  M. Halpern,et al.  First-Year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Tests of Gaussianity , 2003 .

[3]  C. A. Oxborrow,et al.  Planck 2015 results. XVIII. Background geometry & topology , 2015, 1502.01593.

[4]  P. Lilje,et al.  Asymmetries in the CMB anisotropy field , 2003, astro-ph/0307507.

[5]  R. B. Barreiro,et al.  Anomalous variance in the WMAP data and Galactic foreground residuals , 2010, 1005.1264.

[6]  F. Finelli,et al.  Low variance at large scales of WMAP 9 year data , 2013, 1304.5493.

[7]  D. Huterer,et al.  Missing power vs low-ℓ alignments in the cosmic microwave background: No correlation in the standard cosmological model , 2010, 1004.3784.

[8]  A. Banday,et al.  A search for concentric rings with unusual variance in the 7-year WMAP temperature maps using a fast convolution approach , 2012, 1207.6905.

[9]  Is the low-l microwave background cosmic? , 2004, Physical review letters.

[10]  Bharat Ratra,et al.  CMB temperature anisotropy from broken spatial isotropy due to a homogeneous cosmological magnetic field , 2008, 0807.4239.

[11]  R. B. Barreiro,et al.  A low cosmic microwave background variance in the Wilkinson Microwave Anisotropy Probe data , 2008 .

[12]  P. Lilje,et al.  Estimating N-Point Correlation Functions from Pixelized Sky Maps , 2003, astro-ph/0310831.

[13]  G. W. Pratt,et al.  Planck2015 results: XXVI. The SecondPlanckCatalogue of Compact Sources , 2015, 1507.02058.

[14]  Kendrick Smith Pseudo- C ℓ estimators which do not mix E and B modes , 2005, astro-ph/0511629.

[15]  G. W. Pratt,et al.  Planck 2013 results Special feature Planck 2013 results . XXV . Searches for cosmic strings and other topological defects , 2014 .

[16]  P. Lilje,et al.  Multipole Vector Anomalies in the First-Year WMAP Data: A Cut-Sky Analysis , 2005, astro-ph/0507186.

[17]  R. B. Barreiro,et al.  Constraints on the Non-linear Coupling Parameter f nl Using the CMB , 2010 .

[18]  Edward J. Wollack,et al.  Wilkinson Microwave Anisotropy Probe (WMAP) Three Year Results: Implications for Cosmology , 2006, astro-ph/0603449.

[19]  P. Naselsky,et al.  Alfv\'en turbulence in the WMAP 5 year data and a forecast for the PLANCK , 2009 .

[20]  A. Banday,et al.  Scale-dependent non-Gaussianities in the WMAP data as identified by using surrogates and scaling indices , 2010, 1012.2985.

[21]  Second-order gravitational effects of local inhomogeneities on cmb anisotropies and non-gaussian signatures , 2005 .

[22]  G. W. Pratt,et al.  Astronomy & Astrophysics manuscript no. HFI˙Transfer˙Function˙and˙Beams c ○ ESO 2013 , 2013 .

[23]  G. W. Pratt,et al.  Planck 2015 results: XIX. Constraints on primordial magnetic fields , 2015, 1502.01594.

[24]  P. Vielva,et al.  Detection of Non-Gaussianity in the Wilkinson Microwave Anisotropy Probe First-Year Data Using Spherical Wavelets , 2004 .

[25]  P. Vielva,et al.  A comprehensive overview of the Cold Spot , 2010, 1008.3051.

[26]  M. Halpern,et al.  SEVEN-YEAR WILKINSON MICROWAVE ANISOTROPY PROBE (WMAP ) OBSERVATIONS: ARE THERE COSMIC MICROWAVE BACKGROUND ANOMALIES? , 2010, 1001.4758.

[27]  M. Hobson,et al.  The CMB cold spot: texture, cluster or void? , 2008, 0804.2904.

[28]  J. R. Bond,et al.  Application of XFASTER power spectrum and likelihood estimator to Planck , 2009, 0912.4059.

[29]  K. Gorski,et al.  Evidence of Vorticity and Shear at Large Angular Scales in the WMAP Data: A Violation of Cosmological Isotropy? , 2005, astro-ph/0503213.

[30]  Edward J. Wollack,et al.  Five-Year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Data Processing, Sky Maps, & Basic Results , 2008, 0803.0732.

[31]  P. Bielewicz,et al.  The study of topology of the Universe using multipole vectors , 2008, 0804.2437.

[32]  E. Gaztañaga,et al.  The three-point function in large-scale structure: redshift distortions and galaxy bias , 2005, astro-ph/0501637.

[33]  C. A. Oxborrow,et al.  Planck 2015 results. I. Overview of products and scientific results , 2015 .

[34]  A. Rosa,et al.  New constraints on parity symmetry from a re-analysis of the WMAP-7 low-resolution power spectra , 2010, 1006.1979.

[35]  G. Smoot,et al.  Can the Lack of Symmetry in the COBE DMR Maps Constrain the Topology of the Universe , 1995, astro-ph/9510109.

[36]  Edward J. Wollack,et al.  First year Wilkinson Microwave Anisotropy Probe (WMAP) observations: Determination of cosmological parameters , 2003, astro-ph/0302209.

[37]  C. A. Oxborrow,et al.  Planck 2013 results. XXI. All-sky Compton parameter power spectrum and high-order statistics , 2013, 1303.5081.

[38]  C. Pichon,et al.  Non-Gaussian statistics of critical sets in 2D and 3D: Peaks, voids, saddles, genus, and skeleton , 2011, 1110.0261.

[39]  Max Tegmark,et al.  High resolution foreground cleaned CMB map from WMAP , 2003, astro-ph/0302496.

[40]  G. W. Pratt,et al.  Planck 2015 results - XVII. Constraints on primordial non-Gaussianity , 2014 .

[41]  J. C. B. Sánchez The inflationary origin of the Cold Spot anomaly , 2014, 1405.4913.

[42]  Edward J. Wollack,et al.  SEVEN-YEAR WILKINSON MICROWAVE ANISOTROPY PROBE (WMAP) OBSERVATIONS: COSMOLOGICAL INTERPRETATION , 2011 .

[43]  G. W. Pratt,et al.  Planck 2015 results Special feature Planck 2015 results XII . Full focal plane simulations , 2016 .

[44]  C. A. Oxborrow,et al.  Planck 2015 results - XXVIII. The Planck Catalogue of Galactic cold clumps , 2015, 1502.01599.

[45]  P. Lilje,et al.  Hemispherical Power Asymmetry in the Third-Year Wilkinson Microwave Anisotropy Probe Sky Maps , 2007, astro-ph/0701089.

[46]  T. Souradeep,et al.  Measuring the Statistical Isotropy of the Cosmic Microwave Background Anisotropy , 2003 .

[47]  M. Cruz,et al.  The non‐Gaussian cold spot in Wilkinson Microwave Anisotropy Probe: significance, morphology and foreground contribution , 2006, astro-ph/0601427.

[48]  Pierre Vandergheynst,et al.  Alignment and signed-intensity anomalies in Wilkinson Microwave Anisotropy Probe data , 2007 .

[49]  P. Vielva,et al.  Non-Gaussianity analysis on local morphological measures of WMAP data , 2007, 0706.2346.

[50]  M. V. Fernandes,et al.  Search for TeV Gamma-ray Emission from GRB 100621A, an extremely bright GRB in X-rays, with H.E.S.S , 2014, 1405.0488.

[51]  C. A. Oxborrow,et al.  Planck 2015 results Special feature Planck 2015 results XIV . Dark energy and modified gravity , 2016 .

[52]  G. W. Pratt,et al.  XXIV. Cosmology from Sunyaev-Zeldovich cluster counts , 2015, 1502.01597.

[53]  J. Fadili,et al.  CMB data analysis and sparsity , 2008, 0804.1295.

[54]  K. Gorski,et al.  Two-Point Correlations in the COBE DMR Four-Year Anisotropy Maps , 1996, astro-ph/9601061.

[55]  C. A. Oxborrow,et al.  Planck 2015 results Special feature Planck 2015 results XXVII . The second Planck catalogue of Sunyaev-Zeldovich sources , 2016 .

[56]  C. A. Oxborrow,et al.  Planck2013 results. XXVIII. ThePlanckCatalogue of Compact Sources , 2013, Astronomy & Astrophysics.

[57]  F. Finelli,et al.  New estimates of the CMB angular power spectra from the WMAP 5 year low-resolution data , 2009, 0904.0789.

[58]  K. Gorski,et al.  Model-independent test for scale-dependent non-Gaussianities in the cosmic microwave background. , 2008, Physical review letters.

[59]  J. Diego,et al.  Large Scale Traces of Solar System Cold Dust on CMB Anisotropies , 2010, 1010.0830.

[60]  A. Starobinsky New Restrictions on Spatial Topology of the Universe from Microwave Background Temperature Fluctuations , 1993, gr-qc/9305019.

[61]  R. B. Barreiro,et al.  On the optimality of the spherical Mexican hat wavelet estimator for the primordial non-Gaussianity , 2010, 1007.2181.

[62]  A. Szalay,et al.  The statistics of peaks of Gaussian random fields , 1986 .

[63]  C. A. Oxborrow,et al.  Planck 2013 results - VIII. HFI photometric calibration and mapmaking , 2013, 1303.5069.

[64]  R. B. Barreiro,et al.  Planck 2015 results. II. Low Frequency Instrument data processings , 2013, 1502.01583.

[65]  K. Land,et al.  Examination of evidence for a preferred axis in the cosmic radiation anisotropy. , 2005, Physical review letters.

[66]  Constraints on the non-linear coupling parameter fnl with the Archeops data , 2008, 0804.0136.

[67]  D. Huterer,et al.  No large-angle correlations on the non-Galactic microwave sky , 2008, 0808.3767.

[68]  C. A. Oxborrow,et al.  Planck 2013 results. XIV. Zodiacal emission , 2013, 1303.5074.

[69]  Changbom Park,et al.  Genus topology of the cosmic microwave background from the WMAP 3-year data , 2006, astro-ph/0610764.

[70]  H. Peiris,et al.  Avoiding bias in reconstructing the largest observable scales from partial-sky data , 2011, 1107.5466.

[71]  G. W. Pratt,et al.  Planck 2013 results. XV. CMB power spectra and likelihood , 2013, 1303.5075.

[72]  D. Spergel,et al.  CMB lensing and the WMAP cold spot , 2008, 0809.4704.

[73]  Paolo Baldi,et al.  Spherical needlets for cosmic microwave background data analysis , 2008 .

[74]  K. Gorski,et al.  On the Viability of Bianchi Type VIIh Models with Dark Energy , 2005, astro-ph/0512433.

[75]  J. Silk,et al.  Local Voids as the Origin of Large-Angle Cosmic Microwave Background Anomalies: The Effect of a Cosmological Constant , 2006, astro-ph/0612347.

[76]  J. Aumont,et al.  Planck2018 results , 2013, Astronomy & Astrophysics.

[77]  C. A. Oxborrow,et al.  Planck 2015 results. XXV. Diffuse low-frequency Galactic foregrounds , 2015, 1506.06660.

[78]  M. Cruz,et al.  Using CMB polarization to constrain the anomalous nature of the Cold Spot with an incomplete-sky coverage , 2013, 1305.5527.

[79]  The shape of CMB temperature and polarization peaks on the sphere , 2015, 1512.07412.

[80]  H. K. Eriksen,et al.  A re-analysis of the three-year WMAP temperature power spectrum and likelihood , 2006 .

[81]  U. Seljak,et al.  An all sky analysis of polarization in the microwave background , 1996, astro-ph/9609170.

[82]  Shuang-Nan Zhang,et al.  Non-Gaussianity Due to Possible Residual Foreground Signals in Wilkinson Microwave Anistropy Probe First-Year Data Using Spherical Wavelet Approaches , 2005, astro-ph/0504589.

[83]  M. Kunz,et al.  Searching for Non-Gaussian Signals in the BOOMERANG 2003 CMB Maps , 2007, New Astronomy Reviews.

[84]  D. Huterer,et al.  Disks in the sky: A reassessment of the WMAP “cold spot” , 2009, 0908.3988.

[85]  G. W. Pratt,et al.  Planck2013 results. XXIX. ThePlanckcatalogue of Sunyaev-Zeldovich sources , 2013, Astronomy & Astrophysics.

[86]  G. W. Pratt,et al.  Planck 2015 results Special feature Planck 2015 results VIII . High Frequency Instrument data processing : Calibration and maps , 2016 .

[87]  Max Tegmark,et al.  CMB multipole measurements in the presence of foregrounds , 2006, Physical Review D.

[88]  C. A. Oxborrow,et al.  Planck2013 results. VI. High Frequency Instrument data processing , 2013, Astronomy & Astrophysics.

[89]  K. Gorski,et al.  HEALPix: A Framework for High-Resolution Discretization and Fast Analysis of Data Distributed on the Sphere , 2004, astro-ph/0409513.

[90]  T. Souradeep,et al.  Testing global isotropy of three-year Wilkinson Microwave Anisotropy Probe (WMAP) data : Temperature analysis , 2006, astro-ph/0607153.

[91]  C. A. Oxborrow,et al.  Planck 2015 results: XXIII. The thermal Sunyaev-Zeldovich effect-cosmic infrared background correlation , 2015, 1509.06555.

[92]  C. A. Oxborrow,et al.  Planck 2015 results. IX. Diffuse component separation: CMB maps , 2015, 1502.05956.

[93]  A. Lewis,et al.  Estimators for CMB statistical anisotropy , 2009, 0908.0963.

[94]  D. Huterer,et al.  Large-angle cosmic microwave background suppression and polarization predictions , 2013 .

[95]  E. Kovetz,et al.  PARITY IN THE COSMIC MICROWAVE BACKGROUND: SPACE ODDITY , 2012 .

[96]  S. Plaszczynski,et al.  A novel estimator of the polarization amplitude from normally distributed Stokes parameters , 2013, 1312.0437.

[97]  C. A. Oxborrow,et al.  Planck 2015 results. XV. Gravitational lensing , 2015, 1502.01591.

[98]  R. B. Barreiro,et al.  Testing Gaussianity on Archeops data , 2006, astro-ph/0612148.

[99]  A. Banday,et al.  Scale-dependent non-Gaussianities in the CMB data identified with Minkowski functionals and scaling indices , 2012, 1209.5106.

[100]  R. B. Barreiro,et al.  Planck 2013 results. III. LFI systematic uncertainties , 2013, 1303.5064.

[101]  G. W. Pratt,et al.  Planck 2013 results. XVII. Gravitational lensing by large-scale structure , 2013, 1303.5077.

[102]  P. Ferreira,et al.  The closet non-Gaussianity of anisotropic Gaussian fluctuations , 1997, astro-ph/9704052.

[103]  D. J. Fixsen,et al.  THE TEMPERATURE OF THE COSMIC MICROWAVE BACKGROUND , 2009, 0911.1955.

[104]  G. W. Pratt,et al.  Planck 2013 results. IX. HFI spectral response , 2013, 1303.5070.

[105]  Yun Wang,et al.  Wavelets and Wilkinson Microwave Anisotropy Probe Non-Gaussianity , 2004 .

[106]  H. Peiris,et al.  The cut-sky cosmic microwave background is not anomalous , 2010, 1004.2706.

[107]  R. B. Barreiro,et al.  IMPROVED CONSTRAINTS ON PRIMORDIAL NON-GAUSSIANITY FOR THE WILKINSON MICROWAVE ANISOTROPY PROBE 5-YEAR DATA , 2009, 0902.1523.

[108]  M. Hobson,et al.  A Cosmic Microwave Background Feature Consistent with a Cosmic Texture , 2007, Science.

[109]  Supervoids in the WISE–2MASS catalogue imprinting cold spots in the cosmic microwave background , 2014, 1405.1555.

[110]  G. Efstathiou,et al.  Large-angle correlations in the cosmic microwave background , 2009, 0911.5399.

[111]  S. Rasanen,et al.  Can a supervoid explain the cold spot , 2014, 1408.4720.

[112]  T. Louis,et al.  Filling in CMB map missing data using constrained Gaussian realizations , 2011, 1109.0286.

[113]  G. W. Pratt,et al.  Planck 2013 results. XXII. Constraints on inflation , 2013, 1303.5082.

[114]  P. Baldi,et al.  Asymptotics for spherical needlets , 2006, math/0606599.

[115]  P. Baldi,et al.  Spherical Needlets for CMB Data Analysis , 2007, 0707.0844.

[116]  Wen Zhao Local properties of Wilkinson Microwave Anisotropy Probe cold spot , 2013 .

[117]  M. Halpern,et al.  First Year Wilkinson Microwave Anisotropy Probe Observations: Dark Energy Induced Correlation with Radio Sources , 2003, The Astrophysical Journal.

[118]  Torsten A. Ensslin,et al.  The axis of evil – a polarization perspective , 2009, 0908.0453.

[119]  C. A. Oxborrow,et al.  Planck 2015 results - VII. High Frequency Instrument data processing: Time-ordered information and beams , 2015, 1502.01586.

[120]  P. Kronberg Magnetic field transport from AGN cores to jets, lobes, and the IGM , 2008, Proceedings of the International Astronomical Union.

[121]  F. V. Leeuwen,et al.  Peculiar velocity effects in high-resolution microwave background experiments , 2001, astro-ph/0112457.

[122]  A. Banday,et al.  POWER ASYMMETRY IN WMAP AND PLANCK TEMPERATURE SKY MAPS AS MEASURED BY A LOCAL VARIANCE ESTIMATOR , 2014, 1402.0870.

[123]  P. K. Aluri,et al.  Parity asymmetry in the CMBR temperature power spectrum , 2011, 1108.5894.

[124]  C. A. Oxborrow,et al.  Planck 2013 results. XXVII. Doppler boosting of the CMB: Eppur si muove , 2013, 1303.5087.

[125]  P. Lilje,et al.  Testing for Non-Gaussianity in the Wilkinson Microwave Anisotropy Probe Data: Minkowski Functionals and the Length of the Skeleton , 2004, astro-ph/0401276.

[126]  Chan-Gyung Park Non-Gaussian signatures in the temperature fluctuation observed by the Wilkinson Microwave Anisotropy Probe , 2003, astro-ph/0307469.

[127]  C. A. Oxborrow,et al.  Planck 2013 results. XXX. Cosmic infrared background measurements and implications for star formation , 2013, 1309.0382.

[128]  F. Finelli,et al.  Hemispherical power asymmetries in the WMAP 7-year low-resolution temperature and polarization maps , 2013, 1301.5195.

[129]  A. Moss,et al.  Tilted physics: A cosmologically dipole-modulated sky , 2010, 1011.2990.

[130]  C. Lanczos An iteration method for the solution of the eigenvalue problem of linear differential and integral operators , 1950 .

[131]  P. Vielva,et al.  Detection of a non‐Gaussian spot in WMAP , 2004 .

[132]  V. Desjacques Baryon acoustic signature in the clustering of density maxima , 2008, 0806.0007.

[133]  E. Kovetz,et al.  Parity in the CMB: Space Oddity , 2011, 1108.1702.

[134]  A. Lasenby,et al.  Bayesian analysis of anisotropic cosmologies: Bianchi VIIh and WMAP , 2013, 1303.3409.

[135]  C. A. Oxborrow,et al.  Planck 2013 results. XIII. Galactic CO emission , 2013, 1303.5073.

[136]  V. Gurzadyan,et al.  To the center of cold spot with Planck , 2014, 1404.6347.

[137]  F. Argueso,et al.  The performance of spherical wavelets to detect non‐Gaussianity in the cosmic microwave background sky , 2002 .

[138]  G. W. Pratt,et al.  Planck 2015 results - VI. LFI mapmaking , 2015, 1502.01585.

[139]  Invariant joint distribution of a stationary random field and its derivatives: Euler characteristic and critical point counts in 2 and 3D , 2009 .

[140]  John A. Peacock,et al.  An estimate of the local integrated Sachs–Wolfe signal and its impact on cosmic microwave background anomalies , 2010 .

[141]  J. Fadili,et al.  Low-ℓ CMB analysis and inpainting , 2012, 1210.6587.

[142]  C. Burigana,et al.  Can residuals of the solar system foreground explain low multipole anomalies of the CMB , 2012, 1206.6981.

[143]  S. Adhikari Local variance asymmetries in Planck temperature anisotropy maps , 2014, 1408.5396.

[144]  E. Kovetz,et al.  A close examination of cosmic microwave background mirror-parity after Planck , 2014, 1403.2104.

[145]  R. Durrer,et al.  Microwave background anisotropies from Alfvén waves , 1998, astro-ph/9807089.

[146]  J. D. McEwen,et al.  A high-significance detection of non-Gaussianity in the Wilkinson Microwave Anisotropy Probe 1-yr data using directional spherical wavelets , 2004, astro-ph/0406604.

[147]  E. L. Wright,et al.  The Cosmic Microwave Background Spectrum from the Full COBE FIRAS Data Set , 1996, astro-ph/9605054.

[148]  D. Huterer,et al.  Spontaneous isotropy breaking: a mechanism for cmb multipole alignments , 2005, astro-ph/0509301.

[149]  A. Lewis,et al.  Asymmetric Beams and CMB Statistical Anisotropy , 2010, 1003.0198.

[150]  S. Flender,et al.  The small scale power asymmetry in the cosmic microwave background , 2013, 1307.6069.

[151]  A. Starobinsky,et al.  ON AXIAL AND PLANE-MIRROR INHOMOGENEITIES IN THE WMAP3 COSMIC MICROWAVE BACKGROUND MAPS , 2007, 0709.0886.

[152]  G. W. Pratt,et al.  Planck 2013 results. X. HFI energetic particle effects: characterization, removal, and simulation , 2013, 1303.5071.

[153]  C. A. Oxborrow,et al.  Planck2015 results , 2015, Astronomy & Astrophysics.

[154]  M. Quartin,et al.  On the proper kinetic quadrupole CMB removal and the quadrupole anomalies , 2015, 1504.02076.

[155]  B. Czech,et al.  Polarizing Bubble Collisions , 2010, 1006.0832.

[156]  T. Matsubara Analytic Minkowski Functionals of the Cosmic Microwave Background: Second-order Non-Gaussianity with Bispectrum and Trispectrum , 2010, 1001.2321.

[157]  Asantha Cooray,et al.  Needlet detection of features in the WMAP CMB sky and the impact on anisotropies and hemispherical asymmetries , 2008, 0809.0010.

[158]  M. Kamionkowski,et al.  Aspects of the cosmic microwave background dipole , 2002, astro-ph/0210165.

[159]  Shea Brown,et al.  Extragalactic Radio Sources and the WMAP Cold Spot , 2007, 0704.0908.

[160]  J. Silk,et al.  Detection of a supervoid aligned with the cold spot of the cosmic microwave background , 2014, 1405.1566.

[161]  Power asymmetries in the cosmic microwave background temperature and polarization patterns , 2010, 1002.4745.

[162]  T. Buchert,et al.  Beyond Genus Statistics: A Unifying Approach to the Morphology of Cosmic Structure , 1997, astro-ph/9702130.

[163]  H. K. Eriksen,et al.  FAST PIXEL SPACE CONVOLUTION FOR COSMIC MICROWAVE BACKGROUND SURVEYS WITH ASYMMETRIC BEAMS AND COMPLEX SCAN STRATEGIES: FEBeCoP , 2010, 1005.1929.

[164]  Applications of the Gaussian kinematic formula to CMB data analysis , 2015 .

[165]  J. D. McEwen,et al.  Optimal filters for detecting cosmic bubble collisions , 2012, 1202.2861.

[166]  G. W. Pratt,et al.  Planck 2015 results - XI. CMB power spectra, likelihoods, and robustness of parameters , 2015, 1507.02704.

[167]  J. R. Bond,et al.  The statistics of cosmic background radiation fluctuations , 1987 .

[168]  K. Land,et al.  Is the universe odd , 2005, astro-ph/0507289.

[169]  K. Tomita,et al.  Second order gravitational effects on CMB temperature anisotropy in {lambda} dominated flat universes , 2007, 0712.1291.

[170]  P. Schneider,et al.  Why your model parameter confidences might be too optimistic - unbiased estimation of the inverse covariance matrix , 2006, astro-ph/0608064.

[171]  C. Gordon Broken Isotropy from a Linear Modulation of the Primordial Perturbations , 2006, astro-ph/0607423.

[172]  Testing the cosmological principle of isotropy: Local power spectrum estimates of the WMAP data , 2004, astro-ph/0404206.

[173]  P. Lilje,et al.  The N-Point Correlation Functions of the First-Year Wilkinson Microwave Anisotropy Probe Sky Maps , 2004, astro-ph/0407271.

[174]  R. B. Barreiro,et al.  Planck 2013 results. IV. Low Frequency Instrument beams and window functions , 2013, 1303.5065.

[175]  H. Peiris,et al.  First observational tests of eternal inflation. , 2010, Physical review letters.

[176]  G. Efstathiou,et al.  A maximum likelihood analysis of the low cosmic microwave background multipoles from the Wilkinson Microwave Anisotropy Probe , 2004 .

[177]  Non-Gaussian curvature spikes from chaotic billiards in inflation preheating. , 2009, Physical review letters.

[178]  Reconstruction of missing data using iterative harmonic expansion , 2013, 1305.0116.

[179]  Markov chain Monte Carlo analysis of Bianchi VIIh models , 2006, astro-ph/0605325.

[180]  D. Huterer,et al.  Uncorrelated universe: Statistical anisotropy and the vanishing angular correlation function in WMAP years 1 3 , 2006, astro-ph/0605135.

[181]  H. K. Eriksen,et al.  No Higher Criticism of the Bianchi-corrected Wilkinson Microwave Anisotropy Probe data , 2006 .

[182]  M. P. Hobson,et al.  Cosmological Applications of a Wavelet Analysis on the Sphere , 2007, 0704.3158.

[183]  Instituto de Fisica de Cantabria,et al.  The Jubilee ISW project – I. Simulated ISW and weak lensing maps and initial power spectra results , 2013, 1307.1712.

[184]  Anthony Challinor,et al.  Analysis of CMB polarization on an incomplete sky , 2001 .

[185]  F. Hansen,et al.  Limits on primordial non-Gaussianity from Minkowski Functionals of theWMAPtemperature anisotropies , 2008, Monthly Notices of the Royal Astronomical Society.

[186]  G. W. Pratt,et al.  Planck 2013 results. XVIII. The gravitational lensing-infrared background correlation , 2013, 1303.5078.

[187]  Edward J. Wollack,et al.  NINE-YEAR WILKINSON MICROWAVE ANISOTROPY PROBE (WMAP) OBSERVATIONS: FINAL MAPS AND RESULTS , 2012, 1212.5225.

[188]  W. White,et al.  A CMB polarization primer , 1997 .

[189]  C. A. Oxborrow,et al.  Planck 2013 results. XXXI. Consistency of the Planck data , 2014, 1508.03375.

[190]  Random-walk statistics and the spherical harmonic representation of cosmic microwave background maps , 2004, astro-ph/0410633.

[191]  C. Burigana,et al.  A comparison of CMB angular power spectrum estimators at large scales: the TT case , 2014, 1403.1089.

[192]  P. Naselsky,et al.  Anomalous parity asymmetry of WMAP 7-year power spectrum data at low multipoles: Is it cosmological or systematics? , 2010, 1002.0148.

[193]  J. Silk,et al.  Local Voids as the Origin of Large-Angle Cosmic Microwave Background Anomalies. I. , 2006, astro-ph/0602478.

[194]  A. Lewis,et al.  Cosmological parameters from CMB and other data: A Monte Carlo approach , 2002, astro-ph/0205436.

[195]  T. Souradeep,et al.  Novel approach to reconstructing signals of isotropy violation from a masked CMB sky , 2015, 1506.00550.

[196]  D. Huterer,et al.  Multipole vectors - A New representation of the CMB sky and evidence for statistical anisotropy or non-Gaussianity at 2 <= l <= 8 , 2003, astro-ph/0310511.

[197]  J. D. McEwen,et al.  Non-Gaussianity detections in the Bianchi VIIh corrected WMAP one-year data made with directional spherical wavelets , 2005, astro-ph/0510349.

[198]  Albert Stebbins,et al.  Statistics of cosmic microwave background polarization , 1997 .

[199]  M. Liguori,et al.  Primordial Non-Gaussianity and Bispectrum Measurements in the Cosmic Microwave Background and Large-Scale Structure , 2010, 1001.4707.

[200]  M. Quartin,et al.  On the significance of power asymmetries in Planck CMB data at all scales , 2014, 1408.5792.

[201]  R. B. Barreiro,et al.  Planck 2015 results - XXII. A map of the thermal Sunyaev-Zeldovich effect , 2015, 1502.01596.

[202]  R. B. Barreiro,et al.  The effect of the linear term on the wavelet estimator of primordial non‐Gaussianity , 2011, 1111.3390.

[203]  G. W. Pratt,et al.  Planck 2015. XX. Constraints on inflation , 2015, 1502.02114.

[204]  B. Wandelt,et al.  The Hot and Cold Spots in the Wilkinson Microwave Anisotropy Probe Data Are Not Hot and Cold Enough , 2004 .

[205]  E. Bunn Efficient Decomposition of Cosmic Microwave Background Polarization Maps into Pure E, Pure B, and Ambiguous Components. , 2010, 1008.0827.

[206]  Matias Zaldarriaga,et al.  Significance of the largest scale CMB fluctuations in WMAP , 2003, astro-ph/0307282.

[207]  G. W. Pratt,et al.  Astronomy & Astrophysics manuscript no. planck˙isw c ○ ESO 2013 , 2013 .

[208]  G. W. Pratt,et al.  Planck 2013 results - XXVI. Background geometry and topology of the Universe , 2013, 1303.5086.

[209]  Matias Zaldarriaga,et al.  E/B decomposition of finite pixelized CMB maps , 2003 .

[210]  Grid-based exploration of cosmological parameter space with Snake , 2012, 1211.3126.

[211]  R. B. Barreiro,et al.  CMB polarization as a probe of the anomalous nature of the Cold Spot , 2010, 1002.4029.

[212]  K. Gorski,et al.  Minkowski functionals used in the morphological analysis of cosmic microwave background anisotropy maps , 1997, astro-ph/9710185.

[213]  A. Starobinsky,et al.  Searching for hidden mirror symmetries in CMB fluctuations from WMAP 7 year maps , 2011, 1111.5362.

[214]  R. B. Barreiro,et al.  Constraints on general primordial non-Gaussianity using wavelets for the Wilkinson Microwave Anisotropy Probe 7-year data , 2011, 1105.6106.

[215]  D. Brandt,et al.  Multi-level adaptive solutions to boundary-value problems math comptr , 1977 .

[216]  C. B. Netterfield,et al.  MASTER of the Cosmic Microwave Background Anisotropy Power Spectrum: A Fast Method for Statistical Analysis of Large and Complex Cosmic Microwave Background Data Sets , 2001, astro-ph/0105302.

[217]  Eiichiro Komatsu,et al.  Limits on anisotropic inflation from the Planck data , 2013, 1310.1605.

[218]  Edward J. Wollack,et al.  FIVE-YEAR WILKINSON MICROWAVE ANISOTROPY PROBE OBSERVATIONS: COSMOLOGICAL INTERPRETATION , 2008, 0803.0547.

[219]  R. B. Barreiro,et al.  Planck 2013 results. V. LFI calibration , 2013, 1303.5066.

[220]  P. Lilje,et al.  INCREASING EVIDENCE FOR HEMISPHERICAL POWER ASYMMETRY IN THE FIVE-YEAR WMAP DATA , 2009, 0903.1229.

[221]  Stevens,et al.  Microwave background anisotropy in a toroidal universe. , 1993, Physical review letters.

[222]  Polarization and anisotropy of the microwave sky. , 1994, Physical review letters.

[223]  P. Lilje,et al.  THE TWO- AND THREE-POINT CORRELATION FUNCTIONS OF THE POLARIZED FIVE-YEAR WMAP SKY MAPS , 2009, 0910.5860.

[224]  Imprints of a Primordial Preferred Direction on the Microwave Background , 2007, astro-ph/0701357.

[225]  P. Vielva,et al.  The Non-Gaussian Cold Spot in the 3 Year Wilkinson Microwave Anisotropy Probe Data , 2007 .

[226]  P. Lilje,et al.  POWER ASYMMETRY IN COSMIC MICROWAVE BACKGROUND FLUCTUATIONS FROM FULL SKY TO SUB-DEGREE SCALES: IS THE UNIVERSE ISOTROPIC? , 2008, 0812.3795.

[227]  P. Naselsky,et al.  IS THE COSMIC MICROWAVE BACKGROUND ASYMMETRY DUE TO THE KINEMATIC DIPOLE? , 2012 .

[228]  October I Physical Review Letters , 2022 .

[229]  A. Banday,et al.  Non-Gaussian signatures in the five-year WMAP data as identified with isotropic scaling indices , 2009, 0905.2854.

[230]  A. Banday,et al.  The hot and cold spots in five–year WMAP data , 2009, 0903.4446.

[231]  A. J. Banday,et al.  Probing non-Gaussianities in the cosmic microwave background on an incomplete sky using surrogates , 2012 .

[232]  Christoph Räth,et al.  A scaling index analysis of the Wilkinson Microwave Anisotropy Probe three-year data: signatures of non-Gaussianities and asymmetries in the cosmic microwave background , 2007 .

[233]  Shaun Cole,et al.  Full‐sky map of the ISW and Rees–Sciama effect from Gpc simulations , 2010, 1003.0974.

[234]  Glenn D. Starkman,et al.  Lack of large-angle TT correlations persists in WMAP and Planck , 2013, 1310.3831.

[235]  C. A. Oxborrow,et al.  XXIV. Cosmology from Sunyaev-Zeldovich cluster counts , 2015, 1502.01597.

[236]  C. A. Oxborrow,et al.  Planck2013 results. XII. Diffuse component separation , 2013, Astronomy &amp; Astrophysics.

[237]  G. C. Wick The Evaluation of the Collision Matrix , 1950 .

[238]  Edward J. Wollack,et al.  First-Year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Preliminary Maps and Basic Results , 2003, astro-ph/0302207.

[239]  R. B. Barreiro,et al.  Wilkinson Microwave Anisotropy Probe 5‐yr constraints on fnl with wavelets , 2009 .

[240]  C. A. Oxborrow,et al.  Planck 2013 results. XVI. Cosmological parameters , 2013, 1303.5076.

[241]  E. Bunn,et al.  A preferred‐direction statistic for sky maps , 1999, astro-ph/9906044.

[242]  H. Peiris,et al.  Testable polarization predictions for models of CMB isotropy anomalies , 2007, 0711.2321.

[243]  G. W. Pratt,et al.  Planck 2015 results - X. Diffuse component separation: Foreground maps , 2015, 1502.01588.

[244]  B. Wandelt,et al.  Efficient Wiener filtering without preconditioning , 2012, 1210.4931.

[245]  L. Cayón,et al.  Higher Criticism statistic: detecting and identifying non-Gaussianity in the WMAP first-year data , 2005, astro-ph/0507246.

[246]  K. Gorski,et al.  Low‐order multipole maps of cosmic microwave background anisotropy derived from WMAP , 2004, astro-ph/0405007.