We prove the density of smooth functions in the modular topology in the Musielak-Orlicz-Sobolev spaces essentially extending the results of Gossez [16] obtained in the Orlicz-Sobolev setting. We impose new systematic regularity assumption on M which allows to study the problem of density unifying and improving the known results in the Orlicz-Sobolev spaces, as well as the variable exponent Sobolev spaces.We confirm the precision of the method by showing the lack of the Lavrentiev phenomenon in the double-phase case. Indeed, we get the modular approximation of W 1,p 0 (Ω) functions by smooth functions in the double-phase space governed by the modular function H(x, s) = s p + a(x)s q with a ∈ C 0,α (Ω) excluding the Lavrentiev phenomenon within the sharp range q/p ≤ 1 + α/N . See [10, Theorem 4.1] for the sharpness of the result. thermistor model [42]. Problems in various types of the Musielak-Orlicz spaces are widely considered from analytical point as well, inter alia the highly modern calculus of variations deals with minimization of the variational integrals [4,10,11,40] See also how the problem of minimisation is examined in the Musielak-Orlicz setting under ∆ 2 /∇ 2 -conditions [22].
The Lavrentiev phenomenonThe Musielak-Orlicz spaces do not inherit all the good properties of the classical Sobolev spaces. Besides reflexivity and separability, which are not -in general -the properties we deal with, the problems with density can also appear and is related to the so-called Lavrentiev phenomenon. We meet it when the infimum of the variational problem over the smooth functions is strictly greater than infimum taken over the set of all functions satisfying the same boundary conditions, cf. [30,40]. The notion of the Lavrentiev phenomenon became naturally generalised to describe the situation, where functions from certain spaces cannot be approximated by regular ones (e.g. smooth).It is known that in the case of the variable exponent spaces, the Lagrangian M (x, s) = |s| p(x) can exhibit the Lavrentiev phenomenon if p(·) is not regular enough (see e.g. [40, Example 3.2]). The canonical, but not optimal, assumption ensuring density of smooth function in norm topology in the variable exponent spaces is the log-Hölder continuity of the exponent p(·). The double-phase spaces (with M (x, s) = |s| p + a(x)|s| q ) can also support the Lavrentiev phenomenon [9,10,14], where the authors provide sharp result.The mentioned results show that the strong closure of the smooth functions can be not relevant type of useful approximation in the spaces with a not sufficiently regular modular function. We provide here sufficient conditions to avoid the Lavrentiev phenomenon. Let us point out that this type of result can be used in order to get e.g. regularity of minimisers cf. [10].
Approximation results in the Musielak-Orlicz spacesAn earlier density result of smooth functions in the Musielak-Orlicz-Sobolev spaces W m L M (R N ) with respect to the strong (norm) topology was proved first by Hudzik [26, Theorem 1] assuming the ∆ 2 -co...
