On a range of exponents for absence of Lavrentiev phenomenon for double phase functionals

Abstract

For a class of functionals having the (p,q)-growth, we establish an improved range of exponents p, q for which the Lavrentiev phenomenon does not occur. The proof is based on a standard mollification argument and Young convolution inequality. Our contribution is two-fold. First, we observe that it is sufficient to regularise only bounded functions. Second, we exploit the L∞ bound on the function rather than the Lp estimate on the gradient. Our proof does not rely on the properties of minimizers to variational problems but it is rather a consequence of the underlying Musielak-Orlicz function spaces. Moreover, our method works for unbounded boundary data, the variable exponent functionals and vectorial problems. In addition, the result seems to be optimal for p d.

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