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#xrf — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #xrf, aggregated by home.social.

  1. Rock art - An innovative method of XRF signal isolation in bi-layered systems for characterizing red rock art [html, pdf 14pp] #RockArt #pictographs #ParietalArt #XRF sciencedirect.com/science/arti

  2. Rock art - An innovative method of XRF signal isolation in bi-layered systems for characterizing red rock art [html, pdf 14pp] #RockArt #pictographs #ParietalArt #XRF sciencedirect.com/science/arti

  3. Rock art - An innovative method of XRF signal isolation in bi-layered systems for characterizing red rock art [html, pdf 14pp] #RockArt #pictographs #ParietalArt #XRF sciencedirect.com/science/arti

  4. Rock art - An innovative method of XRF signal isolation in bi-layered systems for characterizing red rock art [html, pdf 14pp] #RockArt #pictographs #ParietalArt #XRF sciencedirect.com/science/arti

  5. Rock art - An innovative method of XRF signal isolation in bi-layered systems for characterizing red rock art [html, pdf 14pp] #RockArt #pictographs #ParietalArt #XRF sciencedirect.com/science/arti

  6. ☕ Here's a bit of technical content from me - today a deep dive on #baseline correction methods.

    📈 Baseline correction is a preprocessing technique to remove background signal and isolate peaks in hashtag#spectroscopy data.

    📝 In my recent post I discuss two methods:
    1. Wavelet transform (WT) - Decomposes signal into components at different frequencies. Lowest frequency component represents baseline and can be removed.
    2. Asymmetric least squares (ALS) - Fits a smooth baseline function, penalising positive deviations more than negative ones.

    TL;DR: WT method is intuitive but can distort peaks. ALS produces better results.

    🔎 Both methods are applied on a #Raman spectrum and an X-ray fluorescence (#XRF) spectrum. ALS gives a cleaner baseline correction and it's effective for removing broad, slowly varying background while preserving sharper spectral features.

    #chemometrics #Python #MachineLearning #wavelets #regression

    nirpyresearch.com/two-methods-

  7. ☕ Here's a bit of technical content from me - today a deep dive on #baseline correction methods.

    📈 Baseline correction is a preprocessing technique to remove background signal and isolate peaks in hashtag#spectroscopy data.

    📝 In my recent post I discuss two methods:
    1. Wavelet transform (WT) - Decomposes signal into components at different frequencies. Lowest frequency component represents baseline and can be removed.
    2. Asymmetric least squares (ALS) - Fits a smooth baseline function, penalising positive deviations more than negative ones.

    TL;DR: WT method is intuitive but can distort peaks. ALS produces better results.

    🔎 Both methods are applied on a #Raman spectrum and an X-ray fluorescence (#XRF) spectrum. ALS gives a cleaner baseline correction and it's effective for removing broad, slowly varying background while preserving sharper spectral features.

    #chemometrics #Python #MachineLearning #wavelets #regression

    nirpyresearch.com/two-methods-

  8. ☕ Here's a bit of technical content from me - today a deep dive on #baseline correction methods.

    📈 Baseline correction is a preprocessing technique to remove background signal and isolate peaks in hashtag#spectroscopy data.

    📝 In my recent post I discuss two methods:
    1. Wavelet transform (WT) - Decomposes signal into components at different frequencies. Lowest frequency component represents baseline and can be removed.
    2. Asymmetric least squares (ALS) - Fits a smooth baseline function, penalising positive deviations more than negative ones.

    TL;DR: WT method is intuitive but can distort peaks. ALS produces better results.

    🔎 Both methods are applied on a #Raman spectrum and an X-ray fluorescence (#XRF) spectrum. ALS gives a cleaner baseline correction and it's effective for removing broad, slowly varying background while preserving sharper spectral features.

    #chemometrics #Python #MachineLearning #wavelets #regression

    nirpyresearch.com/two-methods-

  9. ☕ Here's a bit of technical content from me - today a deep dive on #baseline correction methods.

    📈 Baseline correction is a preprocessing technique to remove background signal and isolate peaks in hashtag#spectroscopy data.

    📝 In my recent post I discuss two methods:
    1. Wavelet transform (WT) - Decomposes signal into components at different frequencies. Lowest frequency component represents baseline and can be removed.
    2. Asymmetric least squares (ALS) - Fits a smooth baseline function, penalising positive deviations more than negative ones.

    TL;DR: WT method is intuitive but can distort peaks. ALS produces better results.

    🔎 Both methods are applied on a #Raman spectrum and an X-ray fluorescence (#XRF) spectrum. ALS gives a cleaner baseline correction and it's effective for removing broad, slowly varying background while preserving sharper spectral features.

    #chemometrics #Python #MachineLearning #wavelets #regression

    nirpyresearch.com/two-methods-

  10. ☕ Here's a bit of technical content from me - today a deep dive on #baseline correction methods.

    📈 Baseline correction is a preprocessing technique to remove background signal and isolate peaks in hashtag#spectroscopy data.

    📝 In my recent post I discuss two methods:
    1. Wavelet transform (WT) - Decomposes signal into components at different frequencies. Lowest frequency component represents baseline and can be removed.
    2. Asymmetric least squares (ALS) - Fits a smooth baseline function, penalising positive deviations more than negative ones.

    TL;DR: WT method is intuitive but can distort peaks. ALS produces better results.

    🔎 Both methods are applied on a #Raman spectrum and an X-ray fluorescence (#XRF) spectrum. ALS gives a cleaner baseline correction and it's effective for removing broad, slowly varying background while preserving sharper spectral features.

    #chemometrics #Python #MachineLearning #wavelets #regression

    nirpyresearch.com/two-methods-

  11. New #research: Can we trace development stages and ecology of a #permafrost thaw lake throughout the Holocene? Using an innovative combination of sedimentary proxies (ancient #DNA, #diatoms, #XRF), @Iza_bai et al. show: Yes, we can!

    Long-term evolution of Central #Yakutia's vital #alaas #thermokarst lakes is traced throughout past millennia. This may help understand future pathways of culturally important lake systems!

    #sakha #siberia #alas #newresearch #aDNA #eDNA

    doi.org/10.1007/s10933-023-002

  12. New #research: Can we trace development stages and ecology of a #permafrost thaw lake throughout the Holocene? Using an innovative combination of sedimentary proxies (ancient #DNA, #diatoms, #XRF), @Iza_bai et al. show: Yes, we can!

    Long-term evolution of Central #Yakutia's vital #alaas #thermokarst lakes is traced throughout past millennia. This may help understand future pathways of culturally important lake systems!

    #sakha #siberia #alas #newresearch #aDNA #eDNA

    doi.org/10.1007/s10933-023-002

  13. New #research: Can we trace development stages and ecology of a #permafrost thaw lake throughout the Holocene? Using an innovative combination of sedimentary proxies (ancient #DNA, #diatoms, #XRF), @Iza_bai et al. show: Yes, we can!

    Long-term evolution of Central #Yakutia's vital #alaas #thermokarst lakes is traced throughout past millennia. This may help understand future pathways of culturally important lake systems!

    #sakha #siberia #alas #newresearch #aDNA #eDNA

    doi.org/10.1007/s10933-023-002

  14. New #research: Can we trace development stages and ecology of a #permafrost thaw lake throughout the Holocene? Using an innovative combination of sedimentary proxies (ancient #DNA, #diatoms, #XRF), @Iza_bai et al. show: Yes, we can!

    Long-term evolution of Central #Yakutia's vital #alaas #thermokarst lakes is traced throughout past millennia. This may help understand future pathways of culturally important lake systems!

    #sakha #siberia #alas #newresearch #aDNA #eDNA

    doi.org/10.1007/s10933-023-002

  15. Dank Röntgenfluoreszenz (#XRF) kann durch eine spektrale Messung die elementare Aufbau von Materie analysiert werden.
    Ähnlich zur optischen #Fluoreszenz wird ein #Atom angeregt: Ein #Photon mit Energie oberhalb einer Absorptionsschale kann vom Atom absorbiert werden, woraufhin ein #Elektron die Hülle verlässt (Ionisation), oder auf eine energetisch höhere Bahn gebracht wird.

  16. Just out: our latest work reveals environmental changes in southern Patagonia. A fine multi-proxy study led by @NehmeCarole gives you everything: #stableisotopes #clumped #isotopes #fluidinclusions #XRF and more. Proud to be part of such nice team! 😍 sciencedirect.com/science/arti

  17. A #research team at the #University of Göttingen [#Physics #Optics] has developed a new method to produce #Xray images in #colour. In the past, the only way to spatially determine the #chemical #composition of a sample using X-ray #fluorescence [#XRF] was to focus X-rays and scan the whole sample. This is time-consuming and expensive. Scientists have now developed an approach that allows an image of a large area to be produced from a single exposure.

    published in Optica: doi.org/10.1364/OPTICA.477809

  18. Ein Forschungsteam [#Forschung #Physik #Optik] der #Universität #Göttingen hat ein neues Verfahren für Röntgenfarbaufnahmen [#Röntgen #Xray #Xrays] entwickelt. Um nicht nur die chemischen #Elemente einer Probe durch Röntgenfluoreszenzanalyse [#Fluoreszenz #XRF] zu bestimmen, sondern auch deren räumliche Verteilung, muss bislang die genutzte #Röntgenstrahlung fokussiert und die Probe aufwendig abgerastert werden.

    PM: uni-goettingen.de/de/3240.html

    Publikation @ Optica: doi.org/10.1364/OPTICA.477809