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A Multiscale pipeline for the search of string-induced CMB anisotropies

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  1. , Ade P. A. R., Aghanim N., Armitage-Caplan C., Arnaud M., Ashdown M., Atrio-Barandela F., Aumont J., Baccigalupi C., Banday A. J., Barreiro R. B., Bartlett J. G., Bartolo N., Battaner E., Battye R., Benabed K., Benoît A., Benoit-Lévy A., Bernard J.-P., Bersanelli M., Bielewicz P., Bobin J., Bock J. J., Bonaldi A., Bonavera L., Bond J. R., Borrill J., Bouchet F. R., Bridges M., Bucher M., Burigana C., Butler R. C., Cardoso J.-F., Catalano A., Challinor A., Chamballu A., Chiang L.-Y, Chiang H. C., Christensen P. R., Church S., Clements D. L., Colombi S., Colombo L. P. L., Couchot F., Coulais A., Crill B. P., Curto A., Cuttaia F., Danese L., Davies R. D., Davis R. J., de Bernardis P., de Rosa A., de Zotti G., Delabrouille J., Delouis J.-M., Désert F.-X., Diego J. M., Dole H., Donzelli S., Doré O., Douspis M., Ducout A., Dunkley J., Dupac X., Efstathiou G., Enßlin T. A., Eriksen H. K., Fergusson J., Finelli F., Forni O., Frailis M., Franceschi E., Galeotta S., Ganga K., Giard M., Giardino G., Giraud-Héraud Y., González-Nuevo J., Górski K. M., Gratton S., Gregorio A., Gruppuso A., Hansen F. K., Hanson D., Harrison D., Henrot-Versillé S., Hernández-Monteagudo C., Herranz D., Hildebrandt S. R., Hivon E., Hobson M., Holmes W. A., Hornstrup A., Hovest W., Huffenberger K. M., Jaffe T. R., Jaffe A. H., Jones W. C., Juvela M., Keihänen E., Keskitalo R., Kisner T. S., Knoche J., Knox L., Kunz M., Kurki-Suonio H., Lagache G., Lähteenmäki A., Lamarre J.-M., Lasenby A., Laureijs R. J., Lawrence C. R., Leahy J. P., Leonardi R., Lesgourgues J., Liguori M., Lilje P. B., Linden-Vørnle M., López-Caniego M., Lubin P. M., Macías-Pérez J. F., Maffei B., Maino D., Mandolesi N., Maris M., Marshall D. J., Martin P. G., Martínez-González E., Masi S., Matarrese S., Matthai F., Mazzotta P., McEwen J. D., Melchiorri A., Mendes L., Mennella A., Migliaccio M., Mitra S., Miville-Deschênes M.-A., Moneti A., Montier L., Morgante G., Mortlock D., Moss A., Munshi D., Naselsky P., Natoli P., Netterfield C. B., Nørgaard-Nielsen H. U., Noviello F., Novikov D., Novikov I., Osborne S., Oxborrow C. A., Paci F., Pagano L., Pajot F., Paoletti D., Pasian F., Patanchon G., Peiris H. V., Perdereau O., Perotto L., Perrotta F., Piacentini F., Piat M., Pierpaoli E., Pietrobon D., Plaszczynski S., Pointecouteau E., Polenta G., Ponthieu N., Popa L., Poutanen T., Pratt G. W., Prézeau G., Prunet S., Puget J.-L., Rachen J. P., Räth C., Rebolo R., Remazeilles M., Renault C., Ricciardi S., Riller T., Ringeval C., Ristorcelli I., Rocha G., Rosset C., Roudier G., Rowan-Robinson M., Rusholme B., Sandri M., Santos D., Savini G., Scott D., Seiffert M. D., Shellard E. P. S., Spencer L. D., Starck J.-L., Stolyarov V., Stompor R., Sudiwala R., Sureau F., Sutton D., Suur-Uski A.-S., Sygnet J.-F., Tauber J. A., Tavagnacco D., Terenzi L., Toffolatti L., Tomasi M., Tristram M., Tucci M., Tuovinen J., Valenziano L., Valiviita J., Van Tent B., Varis J., Vielva P., Villa F., Vittorio N., Wade L. A., Wandelt B. D., Yvon D., Zacchei A., Zonca A., Planck2013 results. XXV. Searches for cosmic strings and other topological defects, 10.1051/0004-6361/201321621
  2. , Ade P. A. R., Aghanim N., Arnaud M., Ashdown M., Aumont J., Baccigalupi C., Banday A. J., Barreiro R. B., Bartlett J. G., Bartolo N., Battaner E., Battye R., Benabed K., Benoît A., Benoit-Lévy A., Bernard J.-P., Bersanelli M., Bielewicz P., Bock J. J., Bonaldi A., Bonavera L., Bond J. R., Borrill J., Bouchet F. R., Boulanger F., Bucher M., Burigana C., Butler R. C., Calabrese E., Cardoso J.-F., Catalano A., Challinor A., Chamballu A., Chary R.-R., Chiang H. C., Chluba J., Christensen P. R., Church S., Clements D. L., Colombi S., Colombo L. P. L., Combet C., Coulais A., Crill B. P., Curto A., Cuttaia F., Danese L., Davies R. D., Davis R. J., de Bernardis P., de Rosa A., de Zotti G., Delabrouille J., Désert F.-X., Di Valentino E., Dickinson C., Diego J. M., Dolag K., Dole H., Donzelli S., Doré O., Douspis M., Ducout A., Dunkley J., Dupac X., Efstathiou G., Elsner F., Enßlin T. A., Eriksen H. K., Farhang M., Fergusson J., Finelli F., Forni O., Frailis M., Fraisse A. A., Franceschi E., Frejsel A., Galeotta S., Galli S., Ganga K., Gauthier C., Gerbino M., Ghosh T., Giard M., Giraud-Héraud Y., Giusarma E., Gjerløw E., González-Nuevo J., Górski K. M., Gratton S., Gregorio A., Gruppuso A., Gudmundsson J. E., Hamann J., Hansen F. K., Hanson D., Harrison D. L., Helou G., Henrot-Versillé S., Hernández-Monteagudo C., Herranz D., Hildebrandt S. R., Hivon E., Hobson M., Holmes W. A., Hornstrup A., Hovest W., Huang Z., Huffenberger K. M., Hurier G., Jaffe A. H., Jaffe T. R., Jones W. C., Juvela M., Keihänen E., Keskitalo R., Kisner T. S., Kneissl R., Knoche J., Knox L., Kunz M., Kurki-Suonio H., Lagache G., Lähteenmäki A., Lamarre J.-M., Lasenby A., Lattanzi M., Lawrence C. R., Leahy J. P., Leonardi R., Lesgourgues J., Levrier F., Lewis A., Liguori M., Lilje P. B., Linden-Vørnle M., López-Caniego M., Lubin P. M., Macías-Pérez J. F., Maggio G., Maino D., Mandolesi N., Mangilli A., Marchini A., Maris M., Martin P. G., Martinelli M., Martínez-González E., Masi S., Matarrese S., McGehee P., Meinhold P. R., Melchiorri A., Melin J.-B., Mendes L., Mennella A., Migliaccio M., Millea M., Mitra S., Miville-Deschênes M.-A., Moneti A., Montier L., Morgante G., Mortlock D., Moss A., Munshi D., Murphy J. A., Naselsky P., Nati F., Natoli P., Netterfield C. B., Nørgaard-Nielsen H. U., Noviello F., Novikov D., Novikov I., Oxborrow C. A., Paci F., Pagano L., Pajot F., Paladini R., Paoletti D., Partridge B., Pasian F., Patanchon G., Pearson T. J., Perdereau O., Perotto L., Perrotta F., Pettorino V., Piacentini F., Piat M., Pierpaoli E., Pietrobon D., Plaszczynski S., Pointecouteau E., Polenta G., Popa L., Pratt G. W., Prézeau G., Prunet S., Puget J.-L., Rachen J. P., Reach W. T., Rebolo R., Reinecke M., Remazeilles M., Renault C., Renzi A., Ristorcelli I., Rocha G., Rosset C., Rossetti M., Roudier G., Rouillé d’Orfeuil B., Rowan-Robinson M., Rubiño-Martín J. A., Rusholme B., Said N., Salvatelli V., Salvati L., Sandri M., Santos D., Savelainen M., Savini G., Scott D., Seiffert M. D., Serra P., Shellard E. P. S., Spencer L. D., Spinelli M., Stolyarov V., Stompor R., Sudiwala R., Sunyaev R., Sutton D., Suur-Uski A.-S., Sygnet J.-F., Tauber J. A., Terenzi L., Toffolatti L., Tomasi M., Tristram M., Trombetti T., Tucci M., Tuovinen J., Türler M., Umana G., Valenziano L., Valiviita J., Van Tent F., Vielva P., Villa F., Wade L. A., Wandelt B. D., Wehus I. K., White M., White S. D. M., Wilkinson A., Yvon D., Zacchei A., Zonca A., Planck2015 results : XIII. Cosmological parameters, 10.1051/0004-6361/201525830
  3. , Aghanim N., Arnaud M., Ashdown M., Aumont J., Baccigalupi C., Banday A. J., Barreiro R. B., Bartlett J. G., Bartolo N., Battaner E., Benabed K., Benoît A., Benoit-Lévy A., Bernard J.-P., Bersanelli M., Bielewicz P., Bock J. J., Bonaldi A., Bonavera L., Bond J. R., Borrill J., Bouchet F. R., Boulanger F., Bucher M., Burigana C., Butler R. C., Calabrese E., Cardoso J.-F., Catalano A., Challinor A., Chiang H. C., Christensen P. R., Clements D. L., Colombo L. P. L., Combet C., Coulais A., Crill B. P., Curto A., Cuttaia F., Danese L., Davies R. D., Davis R. J., de Bernardis P., de Rosa A., de Zotti G., Delabrouille J., Désert F.-X., Di Valentino E., Dickinson C., Diego J. M., Dolag K., Dole H., Donzelli S., Doré O., Douspis M., Ducout A., Dunkley J., Dupac X., Efstathiou G., Elsner F., Enßlin T. A., Eriksen H. K., Fergusson J., Finelli F., Forni O., Frailis M., Fraisse A. A., Franceschi E., Frejsel A., Galeotta S., Galli S., Ganga K., Gauthier C., Gerbino M., Giard M., Gjerløw E., González-Nuevo J., Górski K. M., Gratton S., Gregorio A., Gruppuso A., Gudmundsson J. E., Hamann J., Hansen F. K., Harrison D. L., Helou G., Henrot-Versillé S., Hernández-Monteagudo C., Herranz D., Hildebrandt S. R., Hivon E., Holmes W. A., Hornstrup A., Huffenberger K. M., Hurier G., Jaffe A. H., Jones W. C., Juvela M., Keihänen E., Keskitalo R., Kiiveri K., Knoche J., Knox L., Kunz M., Kurki-Suonio H., Lagache G., Lähteenmäki A., Lamarre J.-M., Lasenby A., Lattanzi M., Lawrence C. R., Le Jeune M., Leonardi R., Lesgourgues J., Levrier F., Lewis A., Liguori M., Lilje P. B., Lilley M., Linden-Vørnle M., Lindholm V., López-Caniego M., Macías-Pérez J. F., Maffei B., Maggio G., Maino D., Mandolesi N., Mangilli A., Maris M., Martin P. G., Martínez-González E., Masi S., Matarrese S., Meinhold P. R., Melchiorri A., Migliaccio M., Millea M., Mitra S., Miville-Deschênes M.-A., Moneti A., Montier L., Morgante G., Mortlock D., Mottet S., Munshi D., Murphy J. A., Narimani A., Naselsky P., Nati F., Natoli P., Noviello F., Novikov D., Novikov I., Oxborrow C. A., Paci F., Pagano L., Pajot F., Paoletti D., Partridge B., Pasian F., Patanchon G., Pearson T. J., Perdereau O., Perotto L., Pettorino V., Piacentini F., Piat M., Pierpaoli E., Pietrobon D., Plaszczynski S., Pointecouteau E., Polenta G., Ponthieu N., Pratt G. W., Prunet S., Puget J.-L., Rachen J. P., Reinecke M., Remazeilles M., Renault C., Renzi A., Ristorcelli I., Rocha G., Rossetti M., Roudier G., Rouillé d’Orfeuil B., Rubiño-Martín J. A., Rusholme B., Salvati L., Sandri M., Santos D., Savelainen M., Savini G., Scott D., Serra P., Spencer L. D., Spinelli M., Stolyarov V., Stompor R., Sunyaev R., Sutton D., Suur-Uski A.-S., Sygnet J.-F., Tauber J. A., Terenzi L., Toffolatti L., Tomasi M., Tristram M., Trombetti T., Tucci M., Tuovinen J., Umana G., Valenziano L., Valiviita J., Van Tent F., Vielva P., Villa F., Wade L. A., Wandelt B. D., Wehus I. K., Yvon D., Zacchei A., Zonca A., Planck2015 results : XI. CMB power spectra, likelihoods, and robustness of parameters, 10.1051/0004-6361/201526926
  4. Albrecht Andreas, Turok Neil, Evolution of cosmic string networks, 10.1103/physrevd.40.973
  5. Albrecht Andreas, Battye Richard A., Robinson James, The Case against Scaling Defect Models of Cosmic Structure Formation, 10.1103/physrevlett.79.4736
  6. Allen B., Shellard E. P. S., Cosmic-string evolution: A numerical simulation, 10.1103/physrevlett.64.119
  7. Allen B., Caldwell R. R., Dodelson S., Knox L., Shellard E. P. S., Stebbins A., Cosmic Microwave Background Anisotropy Induced by Cosmic Strings on Angular Scales≳15′, 10.1103/physrevlett.79.2624
  8. J. Cosmol. Astropart. Phys., 0804, 015 (2008)
  9. Avgoustidis Anastasios, Copeland Edmund J., Moss Adam, Skliros Dimitri, Fast analytic computation of cosmic string power spectra, 10.1103/physrevd.86.123513
  10. Bardeen J. M., Bond J. R., Kaiser N., Szalay A. S., The statistics of peaks of Gaussian random fields, 10.1086/164143
  11. Battye Richard, Moss Adam, Updated constraints on the cosmic string tension, 10.1103/physrevd.82.023521
  12. Benabed K., Bernardeau F., Cosmic string lens effects on CMB polarization patterns, 10.1103/physrevd.61.123510
  13. Bennett David P., Bouchet François R., Evidence for a Scaling Solution in Cosmic-String Evolution, 10.1103/physrevlett.60.257
  14. Bennett David P., Bouchet François R., Cosmic-string evolution, 10.1103/physrevlett.63.2776
  15. Bennett David P., Bouchet François R., High-resolution simulations of cosmic-string evolution. i. Network evolution, 10.1103/physrevd.41.2408
  16. Bevis Neil, Hindmarsh Mark, Kunz Martin, Urrestilla Jon, CMB power spectrum contribution from cosmic strings using field-evolution simulations of the Abelian Higgs model, 10.1103/physrevd.75.065015
  17. Bevis Neil, Hindmarsh Mark, Kunz Martin, Urrestilla Jon, CMB polarization power spectra contributions from a network of cosmic strings, 10.1103/physrevd.76.043005
  18. Bevis Neil, Hindmarsh Mark, Kunz Martin, Urrestilla Jon, Fitting Cosmic Microwave Background Data with Cosmic Strings and Inflation, 10.1103/physrevlett.100.021301
  19. Bevis Neil, Hindmarsh Mark, Kunz Martin, Urrestilla Jon, CMB power spectra from cosmic strings: Predictions for the Planck satellite and beyond, 10.1103/physrevd.82.065004
  20. Blackman R. B., Tukey J. W., The measurement of power spectra from the point of view of communications engineering — Part I, 10.1002/j.1538-7305.1958.tb03874.x
  21. Blanco-Pillado Jose J., Olum Ken D., Stochastic gravitational wave background from smoothed cosmic string loops, 10.1103/physrevd.96.104046
  22. Blanco-Pillado Jose J., Olum Ken D., Shlaer Benjamin, Large parallel cosmic string simulations: New results on loop production, 10.1103/physrevd.83.083514
  23. (2017)
  24. Yadernaya Fizika [English translation: Sov. J. Nucl. Phys. (1982) 36, 472], 36, 809 (1982)
  25. Bond J. R., Efstathiou G., The statistics of cosmic background radiation fluctuations, 10.1093/mnras/226.3.655
  26. Bouchet François R., Bennett David P., Stebbins Albert, Patterns of the cosmic microwave background from evolving string networks, 10.1038/335410a0
  27. (2011)
  28. J. Cosmol. Astropart. Phys., 1012, 028 (2010)
  29. CORS Bull., 34, 9 (2000)
  30. Technical report, Curvelets: a surprisingly effective nonadaptive representation for objects with edges (2000)
  31. Candès Emmanuel J., Donoho David L., Curvelets and Curvilinear Integrals, 10.1006/jath.2001.3624
  32. Candès Emmanuel J., Donoho David L., New tight frames of curvelets and optimal representations of objects with piecewiseC2singularities : Curvelets and Edges, 10.1002/cpa.10116
  33. Candès Emmanuel J., Guo Franck, New multiscale transforms, minimum total variation synthesis: applications to edge-preserving image reconstruction, 10.1016/s0165-1684(02)00300-6
  34. Candès Emmanuel, Demanet Laurent, Donoho David, Ying Lexing, Fast Discrete Curvelet Transforms, 10.1137/05064182x
  35. IEEE Trans. Pattern Anal. Mach. Intell., 679 (1986)
  36. Charnock Tom, Avgoustidis Anastasios, Copeland Edmund J., Moss Adam, CMB constraints on cosmic strings and superstrings, 10.1103/physrevd.93.123503
  37. Christiansen J. L., Albin E., Fletcher T., Goldman J., Teng I. P. W., Foley M., Smoot G. F., Search for cosmic strings in the COSMOS survey, 10.1103/physrevd.83.122004
  38. JCAP, 028 (2017)
  39. (2017)
  40. Codis S., Pichon C., Pogosyan D., Bernardeau F., Matsubara T., Non-Gaussian Minkowski functionals and extrema counts in redshift space, 10.1093/mnras/stt1316
  41. Contaldi Carlo, Hindmarsh Mark, Magueijo João, Power Spectra of the Cosmic Microwave Background and Density Fluctuations Seeded by Local Cosmic Strings, 10.1103/physrevlett.82.679
  42. Copeland E. J., Kibble T. W. B., Cosmic strings and superstrings, 10.1098/rspa.2009.0591
  43. Copeland Edmund J., Liddle Andrew R., Lyth David H., Stewart Ewan D., Wands David, False vacuum inflation with Einstein gravity, 10.1103/physrevd.49.6410
  44. J. High Energy Phys., 06, 013 (2004)
  45. Damour Thibault, Vilenkin Alexander, Gravitational radiation from cosmic (super)strings: Bursts, stochastic background, and observational windows, 10.1103/physrevd.71.063510
  46. DANOS REBECCA J., BRANDENBERGER ROBERT H., CANNY ALGORITHM, COSMIC STRINGS AND THE COSMIC MICROWAVE BACKGROUND, 10.1142/s0218271810016324
  47. Danos Rebecca J., Brandenberger Robert H., Holder Gil, Signature of cosmic string wakes in the CMB polarization, 10.1103/physrevd.82.023513
  48. PhD thesis (2009)
  49. Proc. SPIE Conf. Ser. Vol. 4056, Wavelet Applications VII, 12 (2000)
  50. Ducout A., Bouchet F. R., Colombi S., Pogosyan D., Prunet S., Non-Gaussianity and Minkowski functionals: forecasts for Planck, 10.1093/mnras/sts483
  51. J. Cosmol. Astropart. Phys., 0403, 010 (2004)
  52. “Curvelets and Ridgelets”, in Encyclopedia of Complexity and Systems Science, Vol. 3, 1718 (2009)
  53. J. Cosmol. Astropart. Phys., 0503, 009 (2005)
  54. Fraisse Aurélien A., Ringeval Christophe, Spergel David N., Bouchet François R., Small-angle CMB temperature anisotropies induced by cosmic strings, 10.1103/physrevd.78.043535
  55. Astrofizika, [English translation: Astrophysics, 23 (1986) 485], 23, 191 (1985)
  56. Gay Christophe, Pichon Christophe, Pogosyan Dmitry, Non-Gaussian statistics of critical sets in 2D and 3D: Peaks, voids, saddles, genus, and skeleton, 10.1103/physrevd.85.023011
  57. J. Stat. Phys., 413 (2008)
  58. Gott J. R., III, Gravitational lensing effects of vacuum strings - Exact solutions, 10.1086/162808
  59. Guth Alan H., Inflationary universe: A possible solution to the horizon and flatness problems, 10.1103/physrevd.23.347
  60. Hammond D. K., Wiaux Y., Vandergheynst P., Wavelet domain Bayesian denoising of string signal in the cosmic microwave background, 10.1111/j.1365-2966.2009.14978.x
  61. Heavens Alan F., Sheth Ravi K., The correlation of peaks in the microwave background, 10.1046/j.1365-8711.1999.03015.x
  62. Tye S.-H.H., Brane Inflation: String Theory Viewed from the Cosmos, Lecture Notes in Physics ISBN:9783540742326 p.949-974, 10.1007/978-3-540-74233-3_28
  63. JCAP, 06, 004 (2017)
  64. Hernández Oscar F., Wouthuysen-Field absorption trough in cosmic string wakes, 10.1103/physrevd.90.123504
  65. J. Cosmol. Astropart. Phys., 1207, 032 (2012)
  66. J. Cosmol. Astropart. Phys., 1108, 014 (2011)
  67. Hindmarsh Mark, Small-scale microwave background fluctuations from cosmic strings, 10.1086/174505
  68. Hindmarsh M B, Kibble T W B, Cosmic strings, 10.1088/0034-4885/58/5/001
  69. Hindmarsh Mark, Stuckey Stephanie, Bevis Neil, Abelian Higgs cosmic strings: Small-scale structure and loops, 10.1103/physrevd.79.123504
  70. Hindmarsh Mark, Ringeval Christophe, Suyama Teruaki, CMB temperature bispectrum induced by cosmic strings, 10.1103/physrevd.80.083501
  71. Hindmarsh Mark, Ringeval Christophe, Suyama Teruaki, CMB temperature trispectrum of cosmic strings, 10.1103/physrevd.81.063505
  72. Hindmarsh Mark, Lizarraga Joanes, Urrestilla Jon, Daverio David, Kunz Martin, Scaling from gauge and scalar radiation in Abelian-Higgs string networks, 10.1103/physrevd.96.023525
  73. Hinshaw G., Larson D., Komatsu E., Spergel D. N., Bennett C. L., Dunkley J., Nolta M. R., Halpern M., Hill R. S., Odegard N., Page L., Smith K. M., Weiland J. L., Gold B., Jarosik N., Kogut A., Limon M., Meyer S. S., Tucker G. S., Wollack E., Wright E. L., NINE-YEARWILKINSON MICROWAVE ANISOTROPY PROBE(WMAP) OBSERVATIONS: COSMOLOGICAL PARAMETER RESULTS, 10.1088/0067-0049/208/2/19
  74. J. Stat. Mech. Theor. Exp., 2006, P06008 (2006)
  75. Handbook of Computer Vision and Applications, Vol. 2 (1999)
  76. Machine Vision, Vol. 5 (1995)
  77. Jenet F. A., Hobbs G. B., van Straten W., Manchester R. N., Bailes M., Verbiest J. P. W., Edwards R. T., Hotan A. W., Sarkissian J. M., Ord S. M., Upper Bounds on the Low‐Frequency Stochastic Gravitational Wave Background from Pulsar Timing Observations: Current Limits and Future Prospects, 10.1086/508702
  78. Jeong E., Smoot G. F., Search for Cosmic Strings in Cosmic Microwave Background Anisotropies, 10.1086/428921
  79. Kaiser Nick, Stebbins Albert, Microwave anisotropy due to cosmic strings, 10.1038/310391a0
  80. Kasuya S., Kawasaki M., Remarks on cosmic string formation during preheating on lattice simulations, 10.1103/physrevd.61.083510
  81. J. Phys., A9, 1387 (1976)
  82. Kibble T.W.B., Some implications of a cosmological phase transition, 10.1016/0370-1573(80)90091-5
  83. (2004)
  84. Kuroyanagi Sachiko, Miyamoto Koichi, Sekiguchi Toyokazu, Takahashi Keitaro, Silk Joseph, Forecast constraints on cosmic strings from future CMB, pulsar timing, and gravitational wave direct detection experiments, 10.1103/physrevd.87.023522
  85. Landriau M., Shellard E. P. S., Fluctuations in the cosmic microwave background induced by cosmic strings: Methods and formalism, 10.1103/physrevd.67.103512
  86. Landriau M., Shellard E. P. S., Large angle cosmic microwave background fluctuations from cosmic strings with a cosmological constant, 10.1103/physrevd.69.023003
  87. Landy Stephen D., Szalay Alexander S., Bias and variance of angular correlation functions, 10.1086/172900
  88. J. Cosmol. Astropart. Phys., 1502, 024 (2015)
  89. Lewis Antony, Challinor Anthony, Lasenby Anthony, Efficient Computation of Cosmic Microwave Background Anisotropies in Closed Friedmann‐Robertson‐Walker Models, 10.1086/309179
  90. High-Energy Physics and Cosmology, 260 (1999)
  91. Liddle Andrew R., Lyth David H., The cold dark matter density perturbation, 10.1016/0370-1573(93)90114-s
  92. J. Cosmol. Astropart. Phys., 1610, 042 (2016)
  93. J. High Energy Phys., 03, 056 (2002)
  94. Matsubara Takahiko, Statistics of Isodensity Contours in Redshift Space, 10.1086/176708
  95. Matsubara Takahiko, Statistics of Smoothed Cosmic Fields in Perturbation Theory. I. Formulation and Useful Formulae in Second‐Order Perturbation Theory, 10.1086/345521
  96. McEwen J. D., Feeney S. M., Peiris H. V., Wiaux Y., Ringeval C., Bouchet F. R., Wavelet-Bayesian inference of cosmic strings embedded in the cosmic microwave background, 10.1093/mnras/stx2268
  97. Moessner R., Perivolaropoulos L., Brandenberger R., A cosmic string-specific signature on the cosmic microwave background, 10.1086/173992
  98. Phys. Rev. D, 65, 023503 (2002)
  99. J. Cosmol. Astropart. Phys., 1103, 012 (2011)
  100. MNRAS, 434, 3597 (2012)
  101. Musso Marcello, Sheth Ravi K., The importance of stepping up in the excursion set approach, 10.1093/mnras/stt2387
  102. Musso Marcello, Sheth Ravi K., On the Markovian assumption in the excursion set approach: the approximation of Markovian Velocities, 10.1093/mnras/stu1222
  103. Ghasemi Nezhadhaghighi M., Movahed S. M. S., Yasseri T., Vaez Allaei S. Mehdi, Characterization of the anisotropy of rough surfaces: Crossing statistics, 10.1063/1.4998436
  104. ASP Conf. Ser. Vol. 282, Galaxies: The Third Dimension, 352 (2002)
  105. J. Cosmol. Astropart. Phys., 1205, 014 (2012)
  106. Pen Ue-Li, Seljak Uroš, Turok Neil, Power Spectra in Global Defect Theories of Cosmic Structure Formation, 10.1103/physrevlett.79.1611
  107. An Introduction to Random Vibrations, Spectral and Wavelet Analysis (1994)
  108. Perivolaropoulos Leandros, Statistics of microwave background fluctuations induced by topological defects, 10.1103/physrevd.48.1530
  109. Perivolaropoulos Leandros, COBE versus cosmic strings. An analytical model, 10.1016/0370-2693(93)91825-8
  110. Arshadi Pirlar M., Movahed S. M. S., Razzaghi D., Karimzadeh R., Crossing statistics of laser light scattered through a nanofluid, 10.1364/josaa.34.001620
  111. Pogosian Levon, Vachaspati Tanmay, Cosmic microwave background anisotropy from wiggly strings, 10.1103/physrevd.60.083504
  112. Pogosian Levon, Tye S.-H. Henry, Wasserman Ira, Wyman Mark, Observational constraints on cosmic string production during brane inflation, 10.1103/physrevd.68.023506
  113. (2006)
  114. Pogosyan D., Pichon C., Gay C., Prunet S., Cardoso J. F., Sousbie T., Colombi S., The local theory of the cosmic skeleton, 10.1111/j.1365-2966.2009.14753.x
  115. POLCHINSKI JOSEPH, COSMIC SUPERSTRINGS REVISITED, 10.1142/s0217751x05026686
  116. Pshirkov M. S., Tuntsov A. V., Local constraints on cosmic string loops from photometry and pulsar timing, 10.1103/physrevd.81.083519
  117. J. Cosmol. Astropart. Phys., 1510, 030 (2015)
  118. Rice S. O., Mathematical Analysis of Random Noise, 10.1002/j.1538-7305.1944.tb00874.x
  119. Adv. Astron., 2010, 380507 (2010)
  120. Ringeval Christophe, Bouchet François R., All sky CMB map from cosmic strings integrated Sachs-Wolfe effect, 10.1103/physrevd.86.023513
  121. JCAP, 027 (2017)
  122. J. Cosmol. Astropart. Phys., 0702, 023 (2007)
  123. J. Cosmol. Astropart. Phys., 1602, 033 (2016)
  124. Ryden Barbara S., The collapse of density peaks in a Gaussian random field, 10.1086/166726
  125. Ryden Barbara S., Melott Adrian L., Craig David A., Gott J. Richard, III, Weinberg David H., Scherrer Robert J., Bhavsar Suketu P., Miller John M., The area of isodensity contours in cosmological models and galaxy surveys, 10.1086/167426
  126. Sakellariadou Mairi, Signatures in the angular power spectrum of the cosmic microwave background anisotropies: Topological defect scenarios versus inflationary models, 10.1007/bf02768939
  127. Sakellariadou M., Cosmic Strings, Quantum Analogues: From Phase Transitions to Black Holes and Cosmology ISBN:9783540708582 p.247-288, 10.1007/3-540-70859-6_10
  128. Sarangi Saswat, Tye S.-H.Henry, Cosmic string production towards the end of brane inflation, 10.1016/s0370-2693(02)01824-5
  129. Astron. Zh., 66, 191 (1989)
  130. Shellard E.P.S., Cosmic string interactions, 10.1016/0550-3213(87)90290-2
  131. J. Cosmol. Astropart. Phys., 1205, 026 (2012)
  132. Stebbins Albert, Cosmic strings and the microwave sky. I - Anisotropy from moving strings, 10.1086/166218
  133. Stebbins Albert, Veeraraghavan Shoba, Beyond the small-angle approximation for MBR anisotropy from seeds, 10.1103/physrevd.51.1465
  134. Proc. 1994 Snowmass Summer Study, Particle and Nuclear Astrophysics and Cosmology in the Next Millennium, 51 (1995)
  135. J. Cosmol. Astropart. Phys., 0902, 009 (2009)
  136. Tuntsov A. V., Pshirkov M. S., Quasar variability limits on cosmological density of cosmic strings, 10.1103/physrevd.81.063523
  137. Phys. Rev. D, 30, 2036 (1984)
  138. Vahabi M, Jafari G R, Sadegh Movahed M, Analysis of fractional Gaussian noises using level crossing method, 10.1088/1742-5468/2011/11/p11021
  139. Vilenkin Alexander, Cosmological Density Fluctuations Produced by Vacuum Strings, 10.1103/physrevlett.46.1169
  140. Vilenkin Alexander, Gravitational radiation from cosmic strings, 10.1016/0370-2693(81)91144-8
  141. Vilenkin Alexander, Cosmic strings and domain walls, 10.1016/0370-1573(85)90033-x
  142. Cosmic Strings and Other Topological Defects (2000)
  143. Vincent Graham, Antunes Nuno D., Hindmarsh Mark, Numerical Simulations of String Networks in the Abelian-Higgs Model, 10.1103/physrevlett.80.2277
  144. White Martin, Carlstrom John E., Dragovan Mark, Holzapfel William L., Interferometric Observation of Cosmic Microwave Background Anisotropies, 10.1086/306911
  145. Yura Harold T., Hanson Steen G., Mean level signal crossing rate for an arbitrary stochastic process, 10.1364/josaa.27.000797
  146. Zeldovich Y. B., Cosmological fluctuations produced near a singularity, 10.1093/mnras/192.4.663
Bibliographic reference Ringeval, Christophe ; et. al. A Multiscale pipeline for the search of string-induced CMB anisotropies. In: Monthly Notices of the Royal Astronomical Society, Vol. 475, p. 1010–1022
Permanent URL http://hdl.handle.net/2078.1/195918