The use of optical traps to measure or apply forces on the molecular level requires a precise knowledge of the trapping force field. Close to the trap center, this field is typically approximated as linear in the displacement of the trapped microsphere. However, applications demanding high forces at low laser intensities can probe the light-microsphere interaction beyond the linear regime. Here, we measured the full nonlinear force and displacement response of an optical trap in two dimensions using a dual-beam optical trap setup with back-focal-plane photodetection. We observed a substantial stiffening of the trap beyond the linear regime that depends on microsphere size, in agreement with Mie theory calculations. Surprisingly, we found th...
Optical trapping is a powerful tool in Life Science research and is becoming common place in many mi...
A highly-focused laser beam can provide an attractive force (on the order of piconewtons) capable of...
Many spectacular successes have resulted from the use of laser trapped particles as force-sensing pr...
The use of optical traps to measure or apply forces on the molecular level requires a precise knowle...
The use of optical traps to measure or apply forces on the molecular level requires a precise knowle...
We combined a single-beam gradient optical trap with a high-resolution photodiode position detector ...
Back-focal-plane interferometry is used to measure displacements of optically trapped samples with v...
The transverse force profile of a particle in an optical trap is important for the designs of optica...
Force measurement with an optical trap requires calibration of it. With a suitable detector, such as...
Many spectacular successes have resulted from the use of laser trapped particles as force-sensing pr...
We describe the development of a novel force probe, controlled by multiple optical traps, with a nan...
Optical tweezers have become an important tool to measure forces in biology. The trapped particle di...
The use of optical forces generated by a focused laser beam for manipulating single polymer chains a...
The use of optical forces generated by a focused laser beam for manipulating single polymer chains a...
ABSTRACT We present measurements of the forces on, and displacements of, an optically trapped bead a...
Optical trapping is a powerful tool in Life Science research and is becoming common place in many mi...
A highly-focused laser beam can provide an attractive force (on the order of piconewtons) capable of...
Many spectacular successes have resulted from the use of laser trapped particles as force-sensing pr...
The use of optical traps to measure or apply forces on the molecular level requires a precise knowle...
The use of optical traps to measure or apply forces on the molecular level requires a precise knowle...
We combined a single-beam gradient optical trap with a high-resolution photodiode position detector ...
Back-focal-plane interferometry is used to measure displacements of optically trapped samples with v...
The transverse force profile of a particle in an optical trap is important for the designs of optica...
Force measurement with an optical trap requires calibration of it. With a suitable detector, such as...
Many spectacular successes have resulted from the use of laser trapped particles as force-sensing pr...
We describe the development of a novel force probe, controlled by multiple optical traps, with a nan...
Optical tweezers have become an important tool to measure forces in biology. The trapped particle di...
The use of optical forces generated by a focused laser beam for manipulating single polymer chains a...
The use of optical forces generated by a focused laser beam for manipulating single polymer chains a...
ABSTRACT We present measurements of the forces on, and displacements of, an optically trapped bead a...
Optical trapping is a powerful tool in Life Science research and is becoming common place in many mi...
A highly-focused laser beam can provide an attractive force (on the order of piconewtons) capable of...
Many spectacular successes have resulted from the use of laser trapped particles as force-sensing pr...