A micro dalton resolution mass sensor using optically cooled microdisks via short-time measurement

Abstract

We propose a mass sensor using optically trapped and cooled dielectric microdisks with "measuring after cooling" scheme. The center-of-mass motion of a trapped particle in vacuum can experience extremely low dissipation resulting in robust decoupling from the heat bath. Thus the measurement can be accomplished in a short time before a jump in the phonon number after the optomechanical cooling is finished. This method can lead to 10(-6) dalton mass sensitivity which is a thousand times smaller than the mass of one electron.