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Modeling Line Broadening and Distortion Due to Inhomogeneous Fields for Rydberg Electrometry

This set corresponds to a (pending) publication, where we attempt to model spectral features appearing in the lab by calculating many segments of an inhomogeneous field. Every data set here is a transmission value, either normalized to 1 in modeled data, or an arbitrary-scaled voltage reading from a photodiode onto an oscilloscope. These are given in scans over coupling photon detuning, delta_C, which is divided by 2 pi, and given in MHz. Arrays are scans over delta_C, and position/fieldstrength, for figure 3. Data for figure 3 is given in a slightly unorthodox form, where the [electric field over position plot] and the [total transmission over detuning plot] are given along either of the large array's corresponding axes, matching the arrangement in Fig 3. All data is in CSV comma separated value form, with return characters between rows.

About this Dataset

Updated: 2024-02-22
Metadata Last Updated: 2022-07-06 00:00:00
Date Created: N/A
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Table representation of structured data
Title Modeling Line Broadening and Distortion Due to Inhomogeneous Fields for Rydberg Electrometry
Description This set corresponds to a (pending) publication, where we attempt to model spectral features appearing in the lab by calculating many segments of an inhomogeneous field. Every data set here is a transmission value, either normalized to 1 in modeled data, or an arbitrary-scaled voltage reading from a photodiode onto an oscilloscope. These are given in scans over coupling photon detuning, delta_C, which is divided by 2 pi, and given in MHz. Arrays are scans over delta_C, and position/fieldstrength, for figure 3. Data for figure 3 is given in a slightly unorthodox form, where the [electric field over position plot] and the [total transmission over detuning plot] are given along either of the large array's corresponding axes, matching the arrangement in Fig 3. All data is in CSV comma separated value form, with return characters between rows.
Modified 2022-07-06 00:00:00
Publisher Name National Institute of Standards and Technology
Contact mailto:[email protected]
Keywords Rydberg atoms , atomic physics , receivers , fields strength , electric field , volts/meter
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    "title": "Modeling Line Broadening and Distortion Due to Inhomogeneous Fields for Rydberg Electrometry",
    "description": "This set corresponds to a (pending) publication, where we attempt to model spectral features appearing in the lab by calculating many segments of an inhomogeneous field. Every data set here is a transmission value, either normalized to 1 in modeled data, or an arbitrary-scaled voltage reading from a photodiode onto an oscilloscope. These are given in scans over coupling photon detuning, delta_C, which is divided by 2 pi, and given in MHz. Arrays are scans over delta_C, and position\/fieldstrength, for figure 3. Data for figure 3 is given in a slightly unorthodox form, where the [electric field over position plot] and the [total transmission over detuning plot] are given along either of the large array's corresponding axes, matching the arrangement in Fig 3. All data is in CSV comma separated value form, with return characters between rows.",
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            "description": "Transmission data in an array over cell position (rows) and detuning (columns). Column and row scaling headers each have corresponding data of the total transmission and the field value over position.",
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            "title": "Figure 3f -Waveguide simulation"
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            "title": "Figure 3a - constant"
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            "mediaType": "text\/csv",
            "title": "Figure 3c - linear"
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            "description": "Transmission data in an array over cell position (rows) and detuning (columns). Column and row scaling headers each have corresponding data of the total transmission and the field value over position.",
            "mediaType": "text\/csv",
            "title": "Figure 3d - 1\/r"
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            "mediaType": "text\/csv",
            "title": "Figure 2 - linear change in E"
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            "description": "transmission curves over coupling detuning. We compare data and theory for an 'optimized' waveguide with a near constant field, and an 'unoptimized' standing wave inside of a waveguide.",
            "mediaType": "text\/csv",
            "title": "Figure 1 - tuned waveguide data vs. model"
        },
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            "description": "Comparison of model and data for a transverse path through a waveguide.",
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            "title": "Figure 4 - Transverse through waveguide"
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            "description": "Comparison of model and data for a transverse path through a waveguide. This set uses three different powers labelled, 'low' 'med' and 'high'",
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            "title": "Figure 5 - Longitudinal Through Waveguide"
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            "mediaType": "text\/csv",
            "title": "Figure 3e - standing wave"
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            "description": "Transmission data in an array over cell position (rows) and detuning (columns). Column and row scaling headers each have corresponding data of the total transmission and the field value over position.",
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            "title": "Figure 3b - step-wise"
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        "receivers",
        "fields strength",
        "electric field",
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}

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