| Abstract: | For  , let  denote the infinite planar sector of opening 2α, ![urn:x-wiley:0025584X:media:mana201600314:mana201600314-math-0003]( "urn:x-wiley:0025584X:media:mana201600314:mana201600314-math-0003") and  be the Laplacian in  ,  , with the Robin boundary condition  , where  stands for the outer normal derivative and  . The essential spectrum of  does not depend on the angle α and equals  , and the discrete spectrum is non‐empty if and only if  . In this case we show that the discrete spectrum is always finite and that each individual eigenvalue is a continous strictly increasing function of the angle α. In particular, there is just one discrete eigenvalue for  . As α approaches 0, the number of discrete eigenvalues becomes arbitrary large and is minorated by  with a suitable  , and the nth eigenvalue  of  behaves as ![urn:x-wiley:0025584X:media:mana201600314:mana201600314-math-0018]( "urn:x-wiley:0025584X:media:mana201600314:mana201600314-math-0018") and admits a full asymptotic expansion in powers of α2. The eigenfunctions are exponentially localized near the origin. The results are also applied to δ‐interactions on star graphs. |
