Ion trap nist
WebTrapped ion qubits are typically read out by driving an optical cycling transition with laser light and observing the presence or absence of … Web25 feb. 2010 · To use the EBIT as a source for ions an extraction system has to be built which removes the ions from the trap region and transports them outside the machine. …
Ion trap nist
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WebElectrode is a toolkit to develop and analyze RF ion traps. It can optimize 2D surface electrode patterns to achieve desired trapping properties and extract relevant parameters of the resulting geometry. The software also treats precomputed 3D volumetric field and potential data transparently. Web7 jan. 2010 · The following publications have been approved for release by NIST. The downloadable versions may differ slightly from the final, published versions. M. Affolter, …
Web7 apr. 2024 · In collaboration with colleagues at NIST, we are developing highly efficient superconducting photon detectors that are integrated into ion traps as part of the micro-fabrication process. [1] R. B. Blakestad et al., "Near-ground-state transport of trapped-ion qubits through a multidimensional array", Phys. Rev. A 84, 032314 (2011) Web17 apr. 2015 · Ion Trap Technology (2011) The capabilities of trapped ions have provided a broad basis for experimental realization of quantum information processing and …
Web7 jan. 2010 · Shaun C. Burd, "Squeezing and amplification of trapped-ion motion", Ph.D. Thesis, Department of Physics, University of Colorado, Boulder (2024). PDF file. Raghavendra Srinivas, "Laser-free trapped-ion quantum logic with a radiofrequency magnetic field gradient", Ph.D. Thesis, Department of Physics, University of Colorado, … Web6 okt. 2009 · The electron beam ion trap (EBIT) is a small-scale laboratory instrument which uses a tightly focused and energy-tunable electron beam to create, trap, and probe highly charged ions. Virtually any charge state of any element in the periodic table can be studied using an EBIT simply by injecting the desired element and adjusting the electron ...
WebThe ion trap where the main action takes place in the NIST aluminum ion clock. The aluminum ion and partner magnesium ion sit in the slit running down the center of the device between the electrodes.
Web30 mrt. 2010 · Made of a quartz wafer coated with gold in an oval shape roughly 2 by 4 millimeters, NIST's "racetrack" ion trap features 150 work zones where qubits—ions encoding 1s and 0s in their "spins"—could be stored and transported using electric fields and manipulated with laser beams for information processing. The trap theoretically … the auberge houston txWeb6 jul. 2006 · Physicists at the National Institute of Standards and Technology (NIST) have designed and built a novel electromagnetic trap for ions that could be easily mass … the great circle book reviewWebQTRAP 6500+ system. The QTRAP 6500+ offers revolutionary sensitivity, speed, and performance for your most challenging methods. This system features the multi-component IonDrive™ Technology, including the IonDrive™ Turbo V Source and newly designed IonDrive High Energy Detector, and is ideal for labs requiring the ultimate in performance. the auberge bishops lodgeWeb7 apr. 2024 · Trapped ions are nearly ideal stationary qubits in quantum network nodes because of their long coherence time, precise state preparation and control, and reconfigurable interconnectivity, while photons near 1550 nm wavelength are an optimal choice for non-stationary qubits travelling between nodes with low loss. Our research is … the great circle bookWeb9 jan. 2024 · NIST researchers used its built-in photon detector to measure the quantum state of a beryllium ion with almost perfect accuracy, getting the right answer more than … the great circle cruise route mapWeb11 jun. 2024 · NIST 20 Flyer 30,999 compounds doubled over NIST 17! 1,320,389 tandem spectra doubled over a range of fragmentation conditions including positive and negative modes from ion-trap (up to MS 4) and ‘beam-type’ collision cells (QTOF, HCD, and QqQ); new spectra acquired at high accuracy and resolution the great circleWebrelevant for ion trap applications [29,36]. Ion fluorescence photons collected with traditional high-NA bulk optics have been counted by a fiber-coupled SNSPD in a stand-alone cryostat to perform fast, high-fidelity qubit readout [39]. However, surface-electrode ion traps present a chal-lenging electromagnetic and thermal environment for the auberge logo