Ion trap nist
WebNIST Tandem Mass Spectral Library, 2024 release 31,000 compounds Twice as many as the 2024 release 186,000 precursor Ions 1.3 million spectra Fragmentation methods … 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 …
Ion trap nist
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Web6 okt. 2009 · Electron Beam Ion Traps can produce ion charge states which do not occur naturally on Earth. One can find them in hot astrophysical plasmas and in solar flares. … Web6 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 …
WebAcknowledgements The NIST trapped ion work was sponsored by the Disruptive Technology Office, the National Security Agency, the Office of Naval Research and NIST. We thank K. Brown and J. Home for comments on the manuscript. Contribution of NIST; not subject to U.S. copyright. References 1. Webrelevant 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
Web9 jan. 2024 · January 09, 2024. Credit: D. Slichter/NIST. Putting a bow tie on quantum information processing, NIST researchers have a new ion trap with a component that could be key to streamlining the construction of huge quantum computers: a built-in single-photon detector. Within an ion trap, lasers manipulate the quantum states of the ions … 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 · Penning Traps. The following publications have been approved for release by NIST. The downloadable versions may differ slightly from the final, published versions. M. Affolter, K. A. Gilmore, J. E. Jordan, and J. J. Bollinger, "Phase-coherent sensing of the center-of-mass motion of trapped-ion crystals", Phys. Rev. A 102, 052609 (2024).
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, … chinese delivery 30907Web6 jul. 2010 · Diagram of a NIST ion trap that incorporates an optical fiber to collect light emitted by the ions (electrically charged atoms). Individual electrodes used to trap an ion 30 to 50 micrometers above the surface are shown in different colors surrounding a 50-micrometer-wide hole where light is collected and deposited in a fiber attached below. grand forks winter stormWeb13 jun. 2002 · Among the numerous types of architecture being explored for quantum computers are systems utilizing ion traps, ... in coherent quantum-state manipulation of trapped atomic ions. J. Res. NIST 103, ... grand forks woman shotWebion-trap quantum processors are studied in several laboratories. Here, we focus on experiments carried out at NIST but note that similar work is being pursued at Aarhus, … chinese delivery 32211Web9 okt. 2024 · November 9, 2024. Author (s) Matthew Affolter, Kevin Gilmore, Elena Jordan, John Bollinger. Measurements of the center-of-mass motion of a trapped-ion crystal that … chinese delivery 30341WebTrapped ion qubits are typically read out by driving an optical cycling transition with laser light and observing the presence or absence of … chinese delivery 32250Web7 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 … chinese delivery 32817