Context. The INTEGRAL/SPI, X/γ-ray spectrometer (20 keV–8 MeV) is an instrument for which recovering source intensity variations is not straightforward and can constitute a difficulty for data analysis. In most cases, determining the source intensity changes between exposures is largely based on a priori information.udAims. We propose techniques that help to overcome the difficulty related to source intensity variations, which make this step more rational. In addition, the constructed “synthetic” light curves should permit us to obtain a sky model that describes the data better and optimizes the source signal-to-noise ratios.udMethods. For this purpose, the time intensity variation of each source was modeled as a combination of piecewise segments of time during which a given source exhibits a constant intensity. To optimize the signal-to-noise ratios, the number of segments was minimized. We present a first method that takes advantage of previous time series that can be obtained from another instrument on-board the INTEGRAL observatory. A data segmentation algorithm was then used to synthesize the time series into segments. The second method no longer needs external light curves, but solely SPI raw data. For this, we developed a specific algorithm that involves the SPI transfer function.udResults. The time segmentation algorithms that were developed solve a difficulty inherent to the SPI instrument, which is the intensity variations of sources between exposures, and it allows us to obtain more information about the sources’ behavior.
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机译:上下文。 INTEGRAL / SPI X /γ射线光谱仪(20 keV–8 MeV)是一种难以恢复源强度变化的仪器,可能会给数据分析带来困难。在大多数情况下,确定两次曝光之间的光源强度变化主要基于先验信息。 udAims。我们提出了有助于克服与源强度变化有关的困难的技术,这使此步骤更加合理。此外,构建的“合成”光曲线应允许我们获得一个天空模型,该模型可以更好地描述数据并优化源信噪比。 udMethods。为此,将每个源的时间强度变化建模为分段时间段的组合,在此期间,给定源显示恒定的强度。为了优化信噪比,将段数最小化。我们提出了第一种方法,该方法利用了可以从INTEGRAL天文台的另一台仪器上获得的先前时间序列的优势。然后使用数据分段算法将时间序列合成为分段。第二种方法不再需要外部光曲线,而仅需要SPI原始数据。为此,我们开发了一种包含SPI传递函数的特定算法。 udResults。所开发的时间分割算法解决了SPI仪器固有的难题,即光源在两次曝光之间的强度变化,它使我们可以获得有关光源行为的更多信息。
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