\begin{document}$\theta>0$\end{document} agree with the dS swampland conjecture. These couplings provide similar results in both cases, some of which are compatible and some incompatible with the dS swampland conjectures. Moreover, \begin{document}$\theta>0$\end{document} is more compatible than \begin{document}$\theta<0$\end{document}, and the consistency value in the second boundary condition is much higher than in the first. The order of better compatibility of couplings with the swampland conjecture is ranked as follows: exponential non-minimal coupling, logarithmic non-minimal coupling, and power-law non-minimal coupling. For each type of coupling, we calculate the values of the scalar spectral index \begin{document}$n_s$\end{document} and the tensor-to-scalar ratio r for two different potentials and compare them with the observational data from Planck 2018. We also determine the range of the free parameters \begin{document}$(a,b,q)$\end{document} of the further refining de Sitter swampland conjecture (FRDSSC) that make the model consistent with the conjecture. We find that the model satisfies the FRDSSC for all types of couplings and both potentials, with some constraints on the parameters."> Noncommutativity and its role in constant-roll inflation models with non-minimal coupling constrained by swampland conjectures -
  • [1]

    A. Starobinsky, Phys. Lett. B91(1), 99 (1980)

  • [2]

    K. Sato, Katsuhiko, MNRAS195(3), 467 (1981)

  • [3]

    A. H. Guth, Phys. Rev. D23(2), 347 (1981)

  • [4]

    A. D. Linde, Phy. Lett. B108(6), 389 (1982)

  • [5]

    H. S. Snyder, Phys. Rev.71(1), 38 (1947)

  • [6]

    H. S. Snyder, Phys. Rev.72(1), 68 (1947)

  • [7]

    M. R. Douglas and N. A. Nekrasov, Rev. Mod. Phys.73(4), 977 (2001)

  • [8]

    R. J. Szabo, Phys. Rep.378(4), 207 (2003)

  • [9]

    S. Minwalla, M. V. Raamsdonk, and N. Seiberg, JHEP02, 020 (2000)

  • [10]

    D. J. Gross and N. A. Nekrasov, JHEP10, 021 (2000)

  • [11]

    F. Lizzi, A. Zampini, and R. J. Szabo, JHEP08, 032 (2001)

  • [12]

    J. Gamboa and M. Loewe, J. C. Rojas. Phys. Rev. D64(6), 067901 (2001)

  • [13]

    S. M. Carrollet al., Phys. Rev. Lett.87(14), 141601 (2001)

  • [14]

    A. Anisimovet al., Phys. Rev. D65(8), 085032 (2002)

  • [15]

    S. M. M. Rasouliet al., Annals of Phys.393, 288 (2018)

  • [16]

    S. M. M. Rasouli and P. V. Moniz, Phys. Rev. D90(8), 083533 (2014)

  • [17]

    S. M. M. Rasouli, J. Marto, and P. V. Moniz, Phys. Dark Univ.24, 100269 (2019)

  • [18]

    S. M. M. Rasouliet al., Annals of Phys.375, 154 (2016)

  • [19]

    S. M. M. Rasouli and J. Marto, (2023), arXiv: 2311.01627

  • [20]

    S. M. M. Rasouli, Universe8, 165 (2022)

  • [21]

    B. Muthukumar and P. Mitra, Phys. Rev. D66(2), 027701 (2002)

  • [22]

    J. M. Carmonaet al., Phy. Lett. B565, 222 (2003)

  • [23]

    G. Amelino-Camelia, G. Mandanici, and K. Yoshida, JHEP2004(01), 037 (2004)

  • [24]

    X. Calmet, Eur. Phys. J. C41, 269 (2005)

  • [25]

    T. Banks, W. Fischler, S. H. Shenkeret al., Book The World in Eleven Dimensions Edition 1st Edition First Published 1999 Imprint CRC Press Pages17, eBook ISBN: 9780429176142, OA Funder SCOAP3

  • [26]

    A. Connes, M. R. Douglas, and A. Schwarz, JHEP03, 002 (1998)

  • [27]

    N. Seiberg and E. Witten, JHEP09, 032 (1999)

  • [28]

    S. Doplicher, K. Fredenhagen, and J. E. Roberts, Phys. Lett. B331(1-2), 39 (1994)

  • [29]

    S. Doplicher, K. Fredenhagen, and J. E. Roberts, Commun. Math. Phys.172, 187 (1995)

  • [30]

    E. Abreuet al., SIGMA6, 083 (2010)

  • [31]

    E. MC. ABREU and M. J. Neves, Int. J. Mod. Phys. A27(20), 1250109 (2012)

  • [32]

    R. Brandenberger and P.-M. Ho, Phys. Rev. D66(2), 023517 (2002)

  • [33]

    Q. G. Huang and M. Li, Nucl. Phys. B713(1-3), 219 (2005)

  • [34]

    F. Lizziet al., JHEP06, 049 (2002)

  • [35]

    Q. G. Huang and M. Li, JHEP06, 014 (2003)

  • [36]

    Sh. Tsujikawa, R. Maartens, and R. Brandenberger, Phys. Lett. B574(3-4), 141 (2003)

  • [37]

    Q. G. Huang and M. Li, JCAP11, 001 (2003)

  • [38]

    H. Kim, G. S. Lee, and Y. S. Myung, Mod. Phys. Lett. A20(04), 271 (2005)

  • [39]

    J. Sadeghi and S. Noori Gashti, Eur. Phys. J. C81, 1 (2021)

  • [40]

    V. K. Oikonomou, Int. J. Geom. Methods Mod. Phys.19(07), 2250099 (2022)

  • [41]

    A. Mohammadi, N. Ahmadi, and M. Shokri, JCAP06, 058 (2023)

  • [42]

    S. M. Ahmadi, N. Ahmadi, and M. Shokri, (2023), arXiv: 2312.05998

  • [43]

    A. Pasqua and S. Noori Gashti, Journal of Holography Applications in Physics2(4), 63 (2022)

  • [44]

    H. Motohashi and A. A. Starobinsky, Europhysics Letters117(3), 39001 (2017)

  • [45]

    L. Anguelova, P. Suranyi, and LC. R. Wijewardhana, JCAP02, 004 (2018)

  • [46]

    A. Awadet al., JCAP07, 026 (2018)

  • [47]

    S. Nojiri, S. D. Odintsov, and V. K. Oikonomou, Class. Quantum Grav.34(24), 245012 (2017)

  • [48]

    H. Motohashi and A. A. Starobinsky, Eur. Phys. J. C77, 1 (2017)

  • [49]

    S. D. Odintsov, V. K. Oikonomou, and L. Sebastiani, Nucl. Phys. B923, 608 (2017)

  • [50]

    H. Motohashi, A. A. Starobinsky, and J. Yokoyama, JCAP09, 018 (2015)

  • [51]

    H. Ooguri and C. Vafa, Nucl. Phys. B766(1-3), 21 (2007)

  • [52]

    J. Sadeghiet al., General Relativity and Gravitation54(10), 129 (2022)

  • [53]

    Y. Liu, Eur. Phys. J. C81(12), 1122 (2021)

  • [54]

    Y. Liu, Eur. Phys. J. C82(11), 1052 (2022)

  • [55]

    N. Arkani-Hamedet al., JHEP06, 060 (2007)

  • [56]

    S. Noori Gashti and J. Sadeghi, The European Physical Journal Plus137(6), 1 (2022)

  • [57]

    M. R. Alipour, J. Sadeghi, and M. Shokri, Eur. Phys. J. C83(7), 1 (2023)

  • [58]

    M. R. Alipour, J. Sadeghi, and M. Shokri, Nucl. Phys. B990, 116184 (2023)

  • [59]

    J. Sadeghi, M. R. Alipour, and S. Noori Gashti, Mod. Phys. Lett. A38(26-27), 2350122 (2023)

  • [60]

    N. Schöneberg,et al., JCAP10, 039 (2023)

  • [61]

    K. Kadotaet al., JCAP01, 008 (2020)

  • [62]

    V. K. Oikonomou, Phys. Rev. D103(12), 124028 (2021)

  • [63]

    J. Sadeghiet al., Eur. Phys. J. C83, 635 (2023)

  • [64]

    J. Sadeghi, M. R. Alipour, and S. Noori Gashti, Universe8(12), 621 (2022)

  • [65]

    S. Capozzielloet al., Phys. Rev. D83(6), 064004 (2011)

  • [66]

    S. N. Gashtiet al., Communications in Theoretical Physics74(8), 085402 (2022)

  • [67]

    S. Das, Physics of the Dark Universe27, 100432 (2020)

  • [68]

    J. Yuennan and Ph. Channuie, Fortschritte der Physik70(6), 2200024 (2022)

  • [69]

    A. Bedroya and C. Vafa, JHEP09, 123 (2020)

  • [70]

    J. Sadeghiet al., (2023), arXiv: 2305.12545

  • [71]

    A. Mohammadi, T. Golanbari, and J. Enayati, Phys. Rev. D104(12), 123515 (2021)

  • [72]

    R. Kalloshet al., JHEP03, 134 (2019)

  • [73]

    O. Guleryuz, JCAP11, 043 (2021)

  • [74]

    C. Osses, N. Videla, and G. Panotopoulos, Eur. Phys. J. C81, 485 (2021)

  • [75]

    J. Sadeghi, S. Noori Gashti, and M. R. Alipour, Chin. J. Phys.79, 490 (2022)

  • [76]

    S. Brahma, Phys. Rev. D101(2), 023526 (2020)

  • [77]

    R. Brandenberger, (2021), arXiv: 2102.09641

  • [78]

    J. Sadeghi, S. Noori Gashti, and F. Darabi, Phys. Dark Univ.10, 101090 (2022)

  • [79]

    H. Geng, S. Grieninger, and A. Karch, JHEP06, 105 (2019)

  • [80]

    S. N. Gashti, J. Sadeghi, and B. Pourhassan, Astroparticle Physics139, 102703 (2022)

  • [81]

    J. Sadeghi, E. Naghd Mezerji, and S. Noori Gashti, Mod. Phys. Lett. A36(05), 2150027 (2021)

  • [82]

    J. Sadeghi, S. Noori Gashti, and E. Naghd Mezerji, Phys. Dark Univ.30, 100626 (2020)

  • [83]

    P. Agrawalet al., Phy. Lett. B784, 271 (2018)

  • [84]

    J. Sadeghiet al., IJTP63, 12 (2024)

  • [85]

    S. O. Odintsov and V. K. Oikonomou, Phy. Lett. B805, 135437 (2020)

  • [86]

    J. Sadeghi and S. Noori Gashti, Pramana95, 1 (2021)

  • [87]

    U. K. Sharma, International Journal of Geometric Methods in Modern Physics18(02), 2150031 (2021)

  • [88]

    J. Sadeghi, M. Reza Alipour, and S. Noori Gashti, JHEP02, 236 (2023)

  • [89]

    M. Shokri, J. Sadeghi, and S. Noori Gashti, Phys. Dark Univ.35, 100923 (2022)

  • [90]

    J. Sadeghiet al., Physica Scripta96(12), 125317 (2021)

  • [91]

    S. N. Gashti, M. Reza Alipour, and M. Ali S. Afshar, JHAP4(3), 35 (2024), arXiv: 2409.06488

  • [92]

    J. Sadeghiet al., Physica Scripta98(2), 025305 (2023)

  • [93]

    J. Yuennan and Ph. Channuie, Nucl. Phys. B986, 116033 (2023)

  • [94]

    W. H. Kinney, Phys. Rev. Lett.122(8), 081302 (2019)

  • [95]

    W. H. Kinney, (2021), arXiv: 2103.16583

  • [96]

    T. Y. Yu and W. Y. Wen, Phy. Lett. B781, 713 (2018)

  • [97]

    S. N. Gashti, JHAP2(1), 13 (2022)

  • [98]

    C. Vafa, (2005), arXiv: hep-th/0509212

  • [99]

    J. Sadeghiet al., Chin. Phys. C47(1), 015103 (2023)

  • [100]

    M. van Beestet al., Phys. Rep.989, 1 (2022)

  • [101]

    J. Sadeghiet al., Annals of Phys.447, 169168 (2022)

  • [102]

    J. Sadeghi and S. Noori Gashti, Nucl. Phys. B1006, 116657 (2024)

  • [103]

    J. Sadeghi, S. Noori Gashti, Phys. Lett. B853, 138651 (2024)

  • [104]

    S. Noori Gashti, J. Sadeghi, and M. R. Alipour, Int. J. Mod. Phys. D32(03), 2350011 (2023)

  • [105]

    J. Sadeghiet al., Universe8(12), 623 (2022)

  • [106]

    H. Murayama, M. Yamazaki, and T. T. Yanagida, JHEP12, 032 (2018)

  • [107]

    J. Sadeghiet al., JHEAP44, 482 (2024)

  • [108]

    U. H. Danielsson and T. Van Riet, Int. J. Mod. Phys. D27(12), 1830007 (2018)

  • [109]

    W. H. Kinney, S. Vagnozzi, and L. Visinelli, Class. Quantum Grav.36(11), 117001 (2019)

  • [110]

    S. Kachruet al., Phys. Rev. D68(4), 046005 (2003)

  • [111]

    H. Geng, Phys. Lett. B805, 135430 (2020)

  • [112]

    M. Scalisi and I. Valenzuela, JHEP08, 160 (2019)

  • [113]

    A. Ashoorioon, Phys. Lett. B790, 568 (2019)

  • [114]

    Y. Zhu and Y. Gong, Universe5(9), 200 (2019)

  • [115]

    V. K. Oikonomouet al., Int. J. Mod. Phys. D31(02), 2250001 (2022)

  • [116]

    R. Bravo, G. A. Palma, and S. Riquelme, JCAP02, 004 (2020)

  • [117]

    M. Motaharfar and H. Reza Sepangi, Eur. Phys. J. C76, 1 (2016)

  • [118]

    M. Motaharfar, V. Kamali, and R. O. Ramos, Phys. Rev. D99(6), 063513 (2019)

  • [119]

    S. Das, Phys. Rev. D99.6, 063514 (2019)

  • [120]

    S. Das and R. O. Ramos, Phys. Rev. D102(10), 103522 (2020)

  • [121]

    K. Dasguptaet al., Nucl. Phys. B969, 115463 (2021)

  • [122]

    A. Kamenshchiket al., Class. Quantum Grav.31(10), 105003 (2014)

  • [123]

    A. Kamenshchik, A. Tronconi, and G. Venturi, Phys. Lett. B702(4), 191 (2011)

  • [124]

    R. Jha, SciPost Physics Lecture Notes 073 (2023)

  • [125]

    M. Gürses and Y. Heydarzade, Eur. Phys. J. C80, 1 (2020)

  • [126]

    M. V. Battisti and G. Montani, Phy. Lett. B656(1-3), 96 (2007)

  • [127]

    M. V. Battisti and G. Montani, Phys. Rev. D77(2), 023518 (2008)

  • [128]

    M. Van Raamsdonk and N. Seiberg, JHEP03, 035 (2000)

  • [129]

    Sh. Minwalla, M. Van Raamsdonk, and N. Seiberg, JHEP05, 020 (2000)

  • [130]

    A. Micu and M. M. Sheikh-Jabbari, JHEP06, 028 (2001)

  • [131]

    W. Guzman, M. Sabido, and J. Socorro, Phys. Lett. B697(4), 271 (2011)

  • [132]

    Ch. M. Lin, Kin-W. Ng, and K. Cheung, Phys. Rev. D100(2), 023545 (2019)

  • [133]

    R. Adamet al., Astronomy & Astrophysics596, A104 (2016)

  • [134]

    P. AR. Adeet al., Astronomy & Astrophysics571, A13 (2014)

  • [135]

    Y. Akramiet al., Astronomy & Astrophysics641, A10 (2020)

  • [136]

    N. Aghanimet al., Astronomy & Astrophysics641, A6 (2020)

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