Does convergence in $L^1_{text{loc}}(mathbb{R}^n)$ implies convergence in $mathcal{D}'(mathbb{R}^n)$?












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Every function $fin L^1_{text{loc}}(mathbb{R}^n)$ defines an element $Lambda_f$ of $mathcal{D}'(mathbb{R}^n)$.



If $f_nto f$ in $L^1_{text{loc}}(mathbb{R}^n)$, does that mean that $Lambda_{f_n}to Lambda_f$ in $mathcal{D}'(mathbb{R}^n)$?






distribution-theory







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$endgroup$

















    0












    $begingroup$


    Every function $fin L^1_{text{loc}}(mathbb{R}^n)$ defines an element $Lambda_f$ of $mathcal{D}'(mathbb{R}^n)$.



    If $f_nto f$ in $L^1_{text{loc}}(mathbb{R}^n)$, does that mean that $Lambda_{f_n}to Lambda_f$ in $mathcal{D}'(mathbb{R}^n)$?






    distribution-theory







    share|cite|improve this question









    $endgroup$















      0












      0








      0





      $begingroup$


      Every function $fin L^1_{text{loc}}(mathbb{R}^n)$ defines an element $Lambda_f$ of $mathcal{D}'(mathbb{R}^n)$.



      If $f_nto f$ in $L^1_{text{loc}}(mathbb{R}^n)$, does that mean that $Lambda_{f_n}to Lambda_f$ in $mathcal{D}'(mathbb{R}^n)$?






      distribution-theory







      share|cite|improve this question









      $endgroup$




      Every function $fin L^1_{text{loc}}(mathbb{R}^n)$ defines an element $Lambda_f$ of $mathcal{D}'(mathbb{R}^n)$.



      If $f_nto f$ in $L^1_{text{loc}}(mathbb{R}^n)$, does that mean that $Lambda_{f_n}to Lambda_f$ in $mathcal{D}'(mathbb{R}^n)$?






      distribution-theory




      distribution-theory






      share|cite|improve this question













      share|cite|improve this question











      share|cite|improve this question




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      asked Jan 4 at 12:12









      Gabriel RibeiroGabriel Ribeiro

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          Yes. The point is that convergence in $L^1_{mathrm{loc}}(mathbb R^n)$ implies convergence in each $L^1(Omega)$ for every bounded domain $Omega subset mathbb R^n,$ and hence weak $L^1$ convergence in $Omega.$ But $L^1(Omega)^* cong L^{infty}(Omega),$ which contains $C^{infty}_c(Omega).$



          Going along these lines, we can check this directly. Suppose $f_n rightarrow f$ in $L^1_{mathrm{loc}}(mathbb R^n)$ and let $varphi in C^{infty}_c(mathbb R^n).$ Pick a bounded domain $Omega subset mathbb R^n$ such that $operatorname{supp} varphi subset Omega$ and note that $f_n rightarrow f$ in $L^1(Omega).$ Then we get,
          $$ Lambda_{f_n}(varphi) - Lambda_f(varphi) = int_{mathbb R^n} (f_n - f)varphi ,mathrm{d}x = int_{Omega} (f_n - f)varphi ,mathrm{d}x leq lVert f_n - frVert_{L^1(Omega)} lVert varphi rVert_{L^{infty}_{Omega}} longrightarrow 0 $$
          as $n rightarrow infty.$ Since $varphi$ was arbitrary, $Lambda_{f_n} rightarrow Lambda_f$ in $mathcal{D}'(mathbb R^n).$






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            $begingroup$

            Yes. The point is that convergence in $L^1_{mathrm{loc}}(mathbb R^n)$ implies convergence in each $L^1(Omega)$ for every bounded domain $Omega subset mathbb R^n,$ and hence weak $L^1$ convergence in $Omega.$ But $L^1(Omega)^* cong L^{infty}(Omega),$ which contains $C^{infty}_c(Omega).$



            Going along these lines, we can check this directly. Suppose $f_n rightarrow f$ in $L^1_{mathrm{loc}}(mathbb R^n)$ and let $varphi in C^{infty}_c(mathbb R^n).$ Pick a bounded domain $Omega subset mathbb R^n$ such that $operatorname{supp} varphi subset Omega$ and note that $f_n rightarrow f$ in $L^1(Omega).$ Then we get,
            $$ Lambda_{f_n}(varphi) - Lambda_f(varphi) = int_{mathbb R^n} (f_n - f)varphi ,mathrm{d}x = int_{Omega} (f_n - f)varphi ,mathrm{d}x leq lVert f_n - frVert_{L^1(Omega)} lVert varphi rVert_{L^{infty}_{Omega}} longrightarrow 0 $$
            as $n rightarrow infty.$ Since $varphi$ was arbitrary, $Lambda_{f_n} rightarrow Lambda_f$ in $mathcal{D}'(mathbb R^n).$






            share|cite|improve this answer









            $endgroup$


















              4












              $begingroup$

              Yes. The point is that convergence in $L^1_{mathrm{loc}}(mathbb R^n)$ implies convergence in each $L^1(Omega)$ for every bounded domain $Omega subset mathbb R^n,$ and hence weak $L^1$ convergence in $Omega.$ But $L^1(Omega)^* cong L^{infty}(Omega),$ which contains $C^{infty}_c(Omega).$



              Going along these lines, we can check this directly. Suppose $f_n rightarrow f$ in $L^1_{mathrm{loc}}(mathbb R^n)$ and let $varphi in C^{infty}_c(mathbb R^n).$ Pick a bounded domain $Omega subset mathbb R^n$ such that $operatorname{supp} varphi subset Omega$ and note that $f_n rightarrow f$ in $L^1(Omega).$ Then we get,
              $$ Lambda_{f_n}(varphi) - Lambda_f(varphi) = int_{mathbb R^n} (f_n - f)varphi ,mathrm{d}x = int_{Omega} (f_n - f)varphi ,mathrm{d}x leq lVert f_n - frVert_{L^1(Omega)} lVert varphi rVert_{L^{infty}_{Omega}} longrightarrow 0 $$
              as $n rightarrow infty.$ Since $varphi$ was arbitrary, $Lambda_{f_n} rightarrow Lambda_f$ in $mathcal{D}'(mathbb R^n).$






              share|cite|improve this answer









              $endgroup$
















                4












                4








                4





                $begingroup$

                Yes. The point is that convergence in $L^1_{mathrm{loc}}(mathbb R^n)$ implies convergence in each $L^1(Omega)$ for every bounded domain $Omega subset mathbb R^n,$ and hence weak $L^1$ convergence in $Omega.$ But $L^1(Omega)^* cong L^{infty}(Omega),$ which contains $C^{infty}_c(Omega).$



                Going along these lines, we can check this directly. Suppose $f_n rightarrow f$ in $L^1_{mathrm{loc}}(mathbb R^n)$ and let $varphi in C^{infty}_c(mathbb R^n).$ Pick a bounded domain $Omega subset mathbb R^n$ such that $operatorname{supp} varphi subset Omega$ and note that $f_n rightarrow f$ in $L^1(Omega).$ Then we get,
                $$ Lambda_{f_n}(varphi) - Lambda_f(varphi) = int_{mathbb R^n} (f_n - f)varphi ,mathrm{d}x = int_{Omega} (f_n - f)varphi ,mathrm{d}x leq lVert f_n - frVert_{L^1(Omega)} lVert varphi rVert_{L^{infty}_{Omega}} longrightarrow 0 $$
                as $n rightarrow infty.$ Since $varphi$ was arbitrary, $Lambda_{f_n} rightarrow Lambda_f$ in $mathcal{D}'(mathbb R^n).$






                share|cite|improve this answer









                $endgroup$



                Yes. The point is that convergence in $L^1_{mathrm{loc}}(mathbb R^n)$ implies convergence in each $L^1(Omega)$ for every bounded domain $Omega subset mathbb R^n,$ and hence weak $L^1$ convergence in $Omega.$ But $L^1(Omega)^* cong L^{infty}(Omega),$ which contains $C^{infty}_c(Omega).$



                Going along these lines, we can check this directly. Suppose $f_n rightarrow f$ in $L^1_{mathrm{loc}}(mathbb R^n)$ and let $varphi in C^{infty}_c(mathbb R^n).$ Pick a bounded domain $Omega subset mathbb R^n$ such that $operatorname{supp} varphi subset Omega$ and note that $f_n rightarrow f$ in $L^1(Omega).$ Then we get,
                $$ Lambda_{f_n}(varphi) - Lambda_f(varphi) = int_{mathbb R^n} (f_n - f)varphi ,mathrm{d}x = int_{Omega} (f_n - f)varphi ,mathrm{d}x leq lVert f_n - frVert_{L^1(Omega)} lVert varphi rVert_{L^{infty}_{Omega}} longrightarrow 0 $$
                as $n rightarrow infty.$ Since $varphi$ was arbitrary, $Lambda_{f_n} rightarrow Lambda_f$ in $mathcal{D}'(mathbb R^n).$







                share|cite|improve this answer












                share|cite|improve this answer



                share|cite|improve this answer










                answered Jan 4 at 12:36









                ktoiktoi

                2,4161618




                2,4161618






























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