Linearized gravity produces a master equation extending the Diósi-Penrose collapse model to include rotational degrees of freedom and mixed contributions through gravitomagnetic coupling.
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Experimental demonstration of trapping and cooling 170 nm silica nanospheres in tunable off-axis standing-wave optical traps at 0.55 or 1.61 micrometers from a mirror using interference from a single-beam tweezer with a tilted mirror.
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A post-Newtonian Gravitational Collapse Model from Linearized Gravity
Linearized gravity produces a master equation extending the Diósi-Penrose collapse model to include rotational degrees of freedom and mixed contributions through gravitomagnetic coupling.
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A method for optically trapping nanospheres at micron range from a tilted mirror
Experimental demonstration of trapping and cooling 170 nm silica nanospheres in tunable off-axis standing-wave optical traps at 0.55 or 1.61 micrometers from a mirror using interference from a single-beam tweezer with a tilted mirror.