Abstract: Disclosed is an X-ray fluorescence analyzer instrument for analyzing the elemental composition of a sample, including: a measurement chamber including air and a measurement aperture sealed by a sample window; a radiation source inside the measurement chamber to invoke secondary radiation from the sample adjacent to the sample window exterior of the measurement chamber; a radiation detector having its receiver inside the measurement chamber, the radiation detector receiving the secondary radiation from the sample window and providing a measurement signal describing intensity of the received radiation; a controller analyzing composition of the sample based on an energy spectrum of the measurement signal based on a calibration established at a reference air density inside the measurement chamber; and a device adjusting a volume of the measurement chamber restoring the reference air density inside the measurement chamber after a change in air density inside the measurement chamber to maintain calibration validity

Abstract: Disclosed is an X-ray fluorescence analyzer instrument for analyzing the elemental composition of a sample, including: a measurement chamber including air and a measurement aperture sealed by a sample window; a radiation source inside the measurement chamber to invoke secondary radiation from the sample adjacent to the sample window exterior of the measurement chamber; a radiation detector having its receiver inside the measurement chamber, the radiation detector receiving the secondary radiation from the sample window and providing a measurement signal describing intensity of the received radiation; a controller analyzing composition of the sample based on an energy spectrum of the measurement signal based on a calibration established at a reference air density inside the measurement chamber; and a device adjusting a volume of the measurement chamber restoring the reference air density inside the measurement chamber after a change in air density inside the measurement chamber to maintain calibration validity

Abstract: An X-ray source (101) is configured to controllably irradiate a sample (105) with incident X-rays through a sample window (104) that has a two-dimensional area. A detector (102) is configured to detect fluorescent radiation coming from the irradiated sample. A carrier (301, 401, 402, 501, 601) is essentially transparent to X-rays and disposed to spatially coincide with a substantial part of the two-dimensional area of the sample window (104). Marker material (303, 403, 602), which is responsive to X-rays by emitting fluorescent radiation, is mechanically supported by said carrier and essentially evenly distributed across at least that part of the carrier that spatially coincides with said two-dimensional area of the sample window.

Abstract: An X-ray source (101) is configured to controllably irradiate a sample (105) with incident X-rays through a sample window (104) that has a two-dimensional area. A detector (102) is configured to detect fluorescent radiation coming from the irradiated sample. A carrier (301, 401, 402, 501, 601) is essentially transparent to X-rays and disposed to spatially coincide with a substantial part of the two-dimensional area of the sample window (104). Marker material (303, 403, 602), which is responsive to X-rays by emitting fluorescent radiation, is mechanically supported by said carrier and essentially evenly distributed across at least that part of the carrier that spatially coincides with said two-dimensional area of the sample window.