Add to ORKGWe report on a Paul-trap system with large access angles that allows positioning of fully isolated micrometer-scale particles with micrometer precision as targets in high-intensity laser-plasma interactions. This paper summarizes theoretical and experimental concepts of the apparatus as well as supporting measurements that were performed for the trapping process of single particles
Controlling the motion of particles is of paramount importance in levitated optomechanics, since sen...
Data for the paper "Hybrid electro-optical trap for experiments with levitated particles in vacuum"E...
Abstract. Frequency standard applications and ultra-high resolution spectroscopy of a conned single ...
We report on the design, construction, and characterisation of a new class of in-vacuo optical levit...
Mechanical oscillators based on levitated particles are promising candidates for sensitive detectors...
This thesis describes a range of experiments performed using a linear Paul trap to investigate the t...
A strongly focused laser beam through an objective microscope with high NA allows the trapping of di...
We report on the micron-sized light-absorbing particle trapping in two configurations (horizontal an...
A strongly focused laser beam through an objective microscope with high NA allows the trapping of di...
We confine a microparticle in a hybrid potential created by a Paul trap and a dual-beam optical trap...
We present detailed instructions for constructing and operating an optical trap using a hollow core ...
Controlling the motion of particles is of paramount importance in levitated optomechanics, since sen...
A new cryogenic linear Paul trap for atomic, molecular and highly charged ions was designed and cons...
Accurate delivery of small targets in high vacuum is a pivotal task in many branches of science and ...
Accurate delivery of small targets in high vacuum is a pivotal task in many branches of science and ...
Controlling the motion of particles is of paramount importance in levitated optomechanics, since sen...
Data for the paper "Hybrid electro-optical trap for experiments with levitated particles in vacuum"E...
Abstract. Frequency standard applications and ultra-high resolution spectroscopy of a conned single ...
We report on the design, construction, and characterisation of a new class of in-vacuo optical levit...
Mechanical oscillators based on levitated particles are promising candidates for sensitive detectors...
This thesis describes a range of experiments performed using a linear Paul trap to investigate the t...
A strongly focused laser beam through an objective microscope with high NA allows the trapping of di...
We report on the micron-sized light-absorbing particle trapping in two configurations (horizontal an...
A strongly focused laser beam through an objective microscope with high NA allows the trapping of di...
We confine a microparticle in a hybrid potential created by a Paul trap and a dual-beam optical trap...
We present detailed instructions for constructing and operating an optical trap using a hollow core ...
Controlling the motion of particles is of paramount importance in levitated optomechanics, since sen...
A new cryogenic linear Paul trap for atomic, molecular and highly charged ions was designed and cons...
Accurate delivery of small targets in high vacuum is a pivotal task in many branches of science and ...
Accurate delivery of small targets in high vacuum is a pivotal task in many branches of science and ...
Controlling the motion of particles is of paramount importance in levitated optomechanics, since sen...
Data for the paper "Hybrid electro-optical trap for experiments with levitated particles in vacuum"E...
Abstract. Frequency standard applications and ultra-high resolution spectroscopy of a conned single ...