U.S. flag

An official website of the United States government

Dot gov

Official websites use .gov
A .gov website belongs to an official government organization in the United States.

Https

Secure .gov websites use HTTPS
A lock () or https:// means you’ve safely connected to the .gov website. Share sensitive information only on official, secure websites.

  1. Home

Joint Quantum State and Measurement Tomography

Data provided by  National Institute of Standards and Technology

This software package performs joint quantum state and measurement tomography. The software is provided as Python source code. A description of the algorithms used is in "Joint Quantum State and Measurement Tomography with Incomplete Measurements" https://arxiv.org/abs/1803.08245Included are three example scripts that simulate data for one or two trapped ion systems with either symmetric or asymmetric measurements:- analysis_scripts/paper_simulations.py: produces all data and histograms shown in related publication with seed = 0. Also provides an example of symmetric measurements.- analysis_scripts/asym_simulations.py: produces simulated data from asymmetric measurements by similar methods as in previous script.- analysis_scripts/load_tutorial/load_simulations.py: gives an example of loading data with asymmetric measurements.

About this Dataset

Updated: 2025-04-06
Metadata Last Updated: 2018-02-17 00:00:00
Date Created: N/A
Data Provided by:
Dataset Owner: N/A

Access this data

View JSON data
Contact dataset owner Access URL
Landing Page URL
Table representation of structured data
Title Joint Quantum State and Measurement Tomography
Description This software package performs joint quantum state and measurement tomography. The software is provided as Python source code. A description of the algorithms used is in "Joint Quantum State and Measurement Tomography with Incomplete Measurements" https://arxiv.org/abs/1803.08245Included are three example scripts that simulate data for one or two trapped ion systems with either symmetric or asymmetric measurements:- analysis_scripts/paper_simulations.py: produces all data and histograms shown in related publication with seed = 0. Also provides an example of symmetric measurements.- analysis_scripts/asym_simulations.py: produces simulated data from asymmetric measurements by similar methods as in previous script.- analysis_scripts/load_tutorial/load_simulations.py: gives an example of loading data with asymmetric measurements.
Modified 2018-02-17 00:00:00
Publisher Name National Institute of Standards and Technology
Contact mailto:[email protected]
Keywords quantum information theory; quantum tomography; statistical analysis; uncertainty quantification; trapped ion 
{
    "identifier": "6576C69624E31C71E053245706815C531891",
    "accessLevel": "public",
    "contactPoint": {
        "hasEmail": "mailto:[email protected]",
        "fn": "Scott Glancy"
    },
    "programCode": [
        "006:045"
    ],
    "landingPage": "https:\/\/github.com\/usnistgov\/state_meas_tomo\/",
    "title": "Joint Quantum State and Measurement Tomography",
    "description": "This software package performs joint quantum state and measurement tomography. The software is provided as Python source code. A description of the algorithms used is in \"Joint Quantum State and Measurement Tomography with Incomplete Measurements\" https:\/\/arxiv.org\/abs\/1803.08245Included are three example scripts that simulate data for one or two trapped ion systems with either symmetric or asymmetric measurements:- analysis_scripts\/paper_simulations.py: produces all data and histograms shown in related publication with seed = 0. Also provides an example of symmetric measurements.- analysis_scripts\/asym_simulations.py: produces simulated data from asymmetric measurements by similar methods as in previous script.- analysis_scripts\/load_tutorial\/load_simulations.py: gives an example of loading data with asymmetric measurements. ",
    "language": [
        "en"
    ],
    "distribution": [
        {
            "accessURL": "https:\/\/doi.org\/10.18434\/T4\/1423031",
            "format": "text\/html",
            "description": "DOI Access to Joint Quantum State and Measurement Tomography",
            "title": "DOI Access to Joint Quantum State and Measurement Tomography"
        },
        {
            "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/6576C69624E31C71E053245706815C531891\/state-detector_tomography.pdf",
            "mediaType": "application\/pdf"
        },
        {
            "downloadURL": "https:\/\/data.nist.gov\/od\/ds\/6576C69624E31C71E053245706815C531891\/state-detector_tomography.pdf.sha256",
            "mediaType": "text\/plain"
        }
    ],
    "bureauCode": [
        "006:55"
    ],
    "modified": "2018-02-17 00:00:00",
    "publisher": {
        "@type": "org:Organization",
        "name": "National Institute of Standards and Technology"
    },
    "theme": [
        "Mathematics and Statistics:Uncertainty quantification",
        "Mathematics and Statistics:Statistical analysis",
        "Physics:Quantum information science"
    ],
    "keyword": [
        "quantum information theory; quantum tomography; statistical analysis; uncertainty quantification; trapped ion"
    ]
}