International audienceThe existence of a light or massive scalar field with a coupling to matter weaker than gravitational strength is a possible source of violation of the weak equivalence principle. We use the first results on the Eötvös parameter by the MICROSCOPE experiment to set new constraints on such scalar fields. For a massive scalar field of mass smaller than 10$^{−12}$ eV (i.e. range larger than a few 10$^5$ m) we improve existing constraints by one order of magnitude to |$\alpha$| < 10$^{−11}$ if the scalar field couples to the baryon number and to |$\alpha$| < 10$^{−12}$ if the scalar field couples to the difference between the baryon and the lepton numbers. We also consider a model describing the coupling of a generic dilaton...
International audienceExtremely weak new forces could lead to apparent violations of the equivalence...
International audienceExtremely weak new forces could lead to apparent violations of the equivalence...
International audienceExtremely weak new forces could lead to apparent violations of the equivalence...
International audienceThe existence of a light or massive scalar field with a coupling to matter wea...
International audienceThe existence of a light or massive scalar field with a coupling to matter wea...
International audienceThe existence of a light or massive scalar field with a coupling to matter wea...
International audienceThe existence of a light or massive scalar field with a coupling to matter wea...
International audienceThe existence of a light or massive scalar field with a coupling to matter wea...
International audienceThe existence of a light or massive scalar field with a coupling to matter wea...
International audienceThe existence of a light or massive scalar field with a coupling to matter wea...
International audienceThe existence of a light or massive scalar field with a coupling to matter wea...
The existence of a light or massive scalar field with a coupling to matter weaker than gravitational...
We consider possible violations of the equivalence principle through the exchange of a light “dilato...
International audienceExtremely weak new forces could lead to apparent violations of the equivalence...
International audienceThe MICROSCOPE mission tested the Weak Equivalence Principle (WEP) with an unp...
International audienceExtremely weak new forces could lead to apparent violations of the equivalence...
International audienceExtremely weak new forces could lead to apparent violations of the equivalence...
International audienceExtremely weak new forces could lead to apparent violations of the equivalence...
International audienceThe existence of a light or massive scalar field with a coupling to matter wea...
International audienceThe existence of a light or massive scalar field with a coupling to matter wea...
International audienceThe existence of a light or massive scalar field with a coupling to matter wea...
International audienceThe existence of a light or massive scalar field with a coupling to matter wea...
International audienceThe existence of a light or massive scalar field with a coupling to matter wea...
International audienceThe existence of a light or massive scalar field with a coupling to matter wea...
International audienceThe existence of a light or massive scalar field with a coupling to matter wea...
International audienceThe existence of a light or massive scalar field with a coupling to matter wea...
The existence of a light or massive scalar field with a coupling to matter weaker than gravitational...
We consider possible violations of the equivalence principle through the exchange of a light “dilato...
International audienceExtremely weak new forces could lead to apparent violations of the equivalence...
International audienceThe MICROSCOPE mission tested the Weak Equivalence Principle (WEP) with an unp...
International audienceExtremely weak new forces could lead to apparent violations of the equivalence...
International audienceExtremely weak new forces could lead to apparent violations of the equivalence...
International audienceExtremely weak new forces could lead to apparent violations of the equivalence...