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1709 results:
Atom Laser Cooling & Trapping  
URL: /applications/fundamental-quantum-technology/atom-laser-cooling-trapping#c14664
Magneto-optical trapping combines the friction force of laser cooling with a “restoring” force depending on the atomic position. In order to realize the position dependent force, a magnetic  
Atom Laser Cooling & Trapping  
URL: /applications/fundamental-quantum-technology/atom-laser-cooling-trapping#c14665
Atom lithography and optical dipole traps are based on the so-called dipole force. The laser induces an oscillating electric dipole in the atom which interacts with the electric field of the laser  
Atom Laser Cooling & Trapping  
URL: /applications/fundamental-quantum-technology/atom-laser-cooling-trapping#c14666
Quantum technology applications require special or even customized lasers with always constantly evolving demands according to the newest developments and changing scientific research topics: The  
Ion Laser Cooling & Trapping - Ion Laser Cooling and Trapping with Diode Lasers  
URL: /applications/fundamental-quantum-technology/ion-laser-cooling-trapping#c524
Ion Laser Cooling and Trapping with Diode Lasers Ion traps Ionization of neutral atoms Laser cooling of trapped ions Coherent manipulation of ions Since their first demonstration in the  
Ion Laser Cooling & Trapping  
URL: /applications/fundamental-quantum-technology/ion-laser-cooling-trapping#c1338
Different types of Ion traps Ion traps are powerful instruments to confine charged particles. The Paul trap, named after its inventor Wolfgang Paul, is a 3d trap that uses oscillating electric  
Degenerate Quantum Gases (BEC, DFG) - Degenerate Quantum Gases (BEC, DFG)  
URL: /applications/fundamental-quantum-technology/degenerate-quantum-gases-bec-dfg#c525
Degenerate Quantum Gases (BEC, DFG) Bose-Einstein condensate (BEC) Degenerate Fermi gas (DFG) Tuning interactions in degenerate gases BEC of molecules Degenerate gases in optical lattices  
Rydberg Excitation  
URL: /applications/fundamental-quantum-technology/rydberg-excitation#c15285
More detailed information about Rydberg atoms, their transitions and complete laser solutions for these Rydberg atoms can be found in our Rydberg flyer.View all products  
Quantum Dots & Microcavities - Quantum Dots & Microcavities  
URL: /applications/fundamental-quantum-techn/quantum-dots-microcavities#c528
Quantum Dots & Microcavities Observing quantum effects in relatively large structures Widely tunable mode-hop-free lasers for studying resonance frequencies Application as single photon  
Spectroscopy - Lasers for Spectroscopy  
URL: /applications/applied-quantum-technology/spectroscopy#c529
Lasers for Spectroscopy Molecular and atomic spectroscopy Gas monitoring Trace gas analysis Direct tunable laser absorption spectroscopy (TDLAS) is a widely used method to analyze  
Optical Pumping & EIT - Optical Pumping & EIT  
URL: /applications/fundamental-quantum-technology/optical-pumping-eit#c509
Optical Pumping & EIT Optical pumping Electromagnetically induced transparency Photon storage & slow light TOPTICA’s added value Using of Optical pumping Optical pumping is widely  
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