000211778 001__ 211778
000211778 005__ 20190816092057.0
000211778 013__ $$cT$$bAT$$aAT487113
000211778 013__ $$bEP$$cB1$$aEP1540278
000211778 013__ $$bUS$$cB2$$aUS7597002
000211778 013__ $$bUS$$cA1$$aUS2006162452
000211778 013__ $$bEP$$cA1$$aEP1540278
000211778 013__ $$bAU$$cA1$$aAU2003254695
000211778 013__ $$cA1$$aWO2004020942$$bWO
000211778 02470 $$2TTO$$a6.0364
000211778 02470 $$2EPO Family ID$$a31954518
000211778 037__ $$aPATENT
000211778 245__ $$aDiamagnetic levitation system
000211778 260__ $$c2004
000211778 269__ $$a2004
000211778 336__ $$aPatents
000211778 520__ $$aThe invention concerns an inertial sensor or an actuator based on diamagnetic levitation, said inertial sensor or actuator comprising support means serving as main support body for an inertial sensor or for an actuator, a two dimensional array of permanent magnets and a diamagnetic element facing the said array characterized in that said diamagnetic material constitutes the inertial mass or the moving part of the actuator.
000211778 700__ $$0241084$$g102772$$aMoser, Roland
000211778 700__ $$aSandtner, Jan
000211778 700__ $$aBarrot, Francois
000211778 909C0 $$0252016$$pLSRO
000211778 909C0 $$xU10021$$0252085$$pTTO
000211778 909CO $$pSTI$$ooai:infoscience.tind.io:211778
000211778 917Z8 $$x104561
000211778 937__ $$aEPFL-PATENT-211778
000211778 973__ $$aEPFL
000211778 980__ $$aPATENT