Polynomial growth of L-function












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Let $f$ be a newform, $L(f,s)$ the related L-function with Ramanujan-Petersson conjunction $|lambda(n)|leq sigma_0(n)$ (divisor counting function). How can I see that it grows only polynomially in vertical direction in any strip, especially the critical strip $0leq Re(s)leq 1$? My idea was to use the Mellin transform and get
$$|L(f,s)|=int_0^infty |L(f,t)|t^{s-1} ,dtleq int_0^infty bigg|sum_{ngeq1}sigma_0(n)n^{-t}bigg|t^{Re(s)-1} ,dt.$$










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    Let $f$ be a newform, $L(f,s)$ the related L-function with Ramanujan-Petersson conjunction $|lambda(n)|leq sigma_0(n)$ (divisor counting function). How can I see that it grows only polynomially in vertical direction in any strip, especially the critical strip $0leq Re(s)leq 1$? My idea was to use the Mellin transform and get
    $$|L(f,s)|=int_0^infty |L(f,t)|t^{s-1} ,dtleq int_0^infty bigg|sum_{ngeq1}sigma_0(n)n^{-t}bigg|t^{Re(s)-1} ,dt.$$










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      Let $f$ be a newform, $L(f,s)$ the related L-function with Ramanujan-Petersson conjunction $|lambda(n)|leq sigma_0(n)$ (divisor counting function). How can I see that it grows only polynomially in vertical direction in any strip, especially the critical strip $0leq Re(s)leq 1$? My idea was to use the Mellin transform and get
      $$|L(f,s)|=int_0^infty |L(f,t)|t^{s-1} ,dtleq int_0^infty bigg|sum_{ngeq1}sigma_0(n)n^{-t}bigg|t^{Re(s)-1} ,dt.$$










      share|cite|improve this question













      Let $f$ be a newform, $L(f,s)$ the related L-function with Ramanujan-Petersson conjunction $|lambda(n)|leq sigma_0(n)$ (divisor counting function). How can I see that it grows only polynomially in vertical direction in any strip, especially the critical strip $0leq Re(s)leq 1$? My idea was to use the Mellin transform and get
      $$|L(f,s)|=int_0^infty |L(f,t)|t^{s-1} ,dtleq int_0^infty bigg|sum_{ngeq1}sigma_0(n)n^{-t}bigg|t^{Re(s)-1} ,dt.$$







      complex-analysis modular-forms mellin-transform






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      asked Nov 28 at 12:40









      Nodt Greenish

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          The prototypical way to bound polynomial growth in the critical strip is to use the Phragmén–Lindelöf Principle. In many other places, this is referred to as the Convexity Principle, and bounds coming from it are called Convexity bounds.



          Now that you know the names of the methods, it's straightforward to find several various proofs using these methods for these convexity bounds.






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            The prototypical way to bound polynomial growth in the critical strip is to use the Phragmén–Lindelöf Principle. In many other places, this is referred to as the Convexity Principle, and bounds coming from it are called Convexity bounds.



            Now that you know the names of the methods, it's straightforward to find several various proofs using these methods for these convexity bounds.






            share|cite|improve this answer


























              1














              The prototypical way to bound polynomial growth in the critical strip is to use the Phragmén–Lindelöf Principle. In many other places, this is referred to as the Convexity Principle, and bounds coming from it are called Convexity bounds.



              Now that you know the names of the methods, it's straightforward to find several various proofs using these methods for these convexity bounds.






              share|cite|improve this answer
























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                1








                1






                The prototypical way to bound polynomial growth in the critical strip is to use the Phragmén–Lindelöf Principle. In many other places, this is referred to as the Convexity Principle, and bounds coming from it are called Convexity bounds.



                Now that you know the names of the methods, it's straightforward to find several various proofs using these methods for these convexity bounds.






                share|cite|improve this answer












                The prototypical way to bound polynomial growth in the critical strip is to use the Phragmén–Lindelöf Principle. In many other places, this is referred to as the Convexity Principle, and bounds coming from it are called Convexity bounds.



                Now that you know the names of the methods, it's straightforward to find several various proofs using these methods for these convexity bounds.







                share|cite|improve this answer












                share|cite|improve this answer



                share|cite|improve this answer










                answered Nov 28 at 13:08









                davidlowryduda

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