Generation Of An Array Of Microtraps For Single Atom Trapping The Slm
Generation Of An Array Of Microtraps For Single Atom Trapping The Slm
Generation Of An Array Of Microtraps For Single Atom Trapping The Slm
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Generating Arrays Of Microtraps A Averaged Fluorescence Images Of
Generating Arrays Of Microtraps A Averaged Fluorescence Images Of
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Figure 10 From Single Atom Trapping In Holographic 2d Arrays Of
Figure 10 From Single Atom Trapping In Holographic 2d Arrays Of
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Figure 5 From Single Atom Trapping In Holographic 2d Arrays Of
Figure 5 From Single Atom Trapping In Holographic 2d Arrays Of
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Figure 2 From Single Atom Trapping In Holographic 2d Arrays Of
Figure 2 From Single Atom Trapping In Holographic 2d Arrays Of
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Figure 8 From Single Atom Trapping In Holographic 2d Arrays Of
Figure 8 From Single Atom Trapping In Holographic 2d Arrays Of
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Figure 7 From Single Atom Trapping In Holographic 2d Arrays Of
Figure 7 From Single Atom Trapping In Holographic 2d Arrays Of
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Figure 3 From Single Atom Trapping In Holographic 2d Arrays Of
Figure 3 From Single Atom Trapping In Holographic 2d Arrays Of
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Figure 9 From Single Atom Trapping In Holographic 2d Arrays Of
Figure 9 From Single Atom Trapping In Holographic 2d Arrays Of
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Figure 1 From Holographic Generation Of Micro Trap Arrays For Single
Figure 1 From Holographic Generation Of Micro Trap Arrays For Single
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Experimental Setup And Trap Images A We Combine A Slm And A High Na
Experimental Setup And Trap Images A We Combine A Slm And A High Na
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Single Atom Trapping In A 3 × 3 Array A Image Of The Traps
Single Atom Trapping In A 3 × 3 Array A Image Of The Traps
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Figure 2 From Holographic Generation Of Micro Trap Arrays For Single
Figure 2 From Holographic Generation Of Micro Trap Arrays For Single
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Pdf Holographic Generation Of Micro Trap Arrays For Single Atoms
Pdf Holographic Generation Of Micro Trap Arrays For Single Atoms
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Figure 1 From Holographic Generation Of Microtrap Arrays For Single
Figure 1 From Holographic Generation Of Microtrap Arrays For Single
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Experimental Platform A An Array Of Microtraps Is Created By
Experimental Platform A An Array Of Microtraps Is Created By
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Figure 6 From Single Atom Trapping In Holographic 2d Arrays Of
Figure 6 From Single Atom Trapping In Holographic 2d Arrays Of
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Pdf Single Atom Trapping In Holographic 2d Arrays Of Microtraps With
Pdf Single Atom Trapping In Holographic 2d Arrays Of Microtraps With
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Scientists Set Traps For Atoms With Single Particle Precision Mit
Scientists Set Traps For Atoms With Single Particle Precision Mit
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Experimental Quantum Computing Platform A Experimental Layout For
Experimental Quantum Computing Platform A Experimental Layout For
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Figure 1 From Two Dimensional Array Of Microtraps With Atomic Shift
Figure 1 From Two Dimensional Array Of Microtraps With Atomic Shift
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Figure 1 From Enhancement Of The Optical Quality Of Microtraps For
Figure 1 From Enhancement Of The Optical Quality Of Microtraps For
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Trapping Single Atoms On A Nanophotonic Circuit With Configurable
Trapping Single Atoms On A Nanophotonic Circuit With Configurable
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Pdf Single Atom Addressing In Microtraps For Quantum State
Pdf Single Atom Addressing In Microtraps For Quantum State
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Figure 1 From Single Atom Trapping In A Metasurface Lens Optical
Figure 1 From Single Atom Trapping In A Metasurface Lens Optical
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Single Atom Trapping In A Metalens Optical Tweezer A A Camera Count
Single Atom Trapping In A Metalens Optical Tweezer A A Camera Count
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Transfer Of Atoms From Fort To Microtrap Array Taken And Reproduced
Transfer Of Atoms From Fort To Microtrap Array Taken And Reproduced
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Figure 1 From Three Dimensional Rearrangement Of Single Atoms Using
Figure 1 From Three Dimensional Rearrangement Of Single Atoms Using
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Trapping Of Single Atoms In Metasurface Tweezer Arrays Will Lab
Trapping Of Single Atoms In Metasurface Tweezer Arrays Will Lab
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Pdf Single Atom Addressing In Microtraps For Quantum State
Pdf Single Atom Addressing In Microtraps For Quantum State
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Figure 1 From Three Dimensional Rearrangement Of Single Atoms Using
Figure 1 From Three Dimensional Rearrangement Of Single Atoms Using
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Reconfigurable Control Of The Splitting Ratio Of Atom Ensembles
Reconfigurable Control Of The Splitting Ratio Of Atom Ensembles
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A Optical Setup For Single Atom Trapping A Homemade Large Numerical
A Optical Setup For Single Atom Trapping A Homemade Large Numerical
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A Optical Setup For Single Atom Trapping A Homemade Large Numerical
A Optical Setup For Single Atom Trapping A Homemade Large Numerical
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