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Five years of EUV solar irradiance evolution, from short to long timescales as observed by PROBA2/LYRA I.E. Dammasch, M. Dominique, L. Wauters, A. Katsiyannis,

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Presentation on theme: "Five years of EUV solar irradiance evolution, from short to long timescales as observed by PROBA2/LYRA I.E. Dammasch, M. Dominique, L. Wauters, A. Katsiyannis,"— Presentation transcript:

1 Five years of EUV solar irradiance evolution, from short to long timescales as observed by PROBA2/LYRA I.E. Dammasch, M. Dominique, L. Wauters, A. Katsiyannis, D. Ryan (ROB/SIDC), 11 th European Space Weather Week Liege, Belgium, 17-21 Nov 2014 LYRA the Large-Yield Radiometer onboard PROBA2

2 Contents  Introduction What is PROBA2 ? What is LYRA ? What data products are delivered ?  Achievements Long-term comparison with other instruments Periodicities present in the signal Sun-Moon eclipses, Sun-Earth occultations Analysis of degradation processes Flares (comparison to GOES, Lyman-alpha signatures, quasi- periodic pulsation, flare strength prediction)

3 PROBA2  ESA’s “PRoject for On-Board Autonomy”  Belgian microsatellite in Sun-synchronous orbit  Polar, dawn-dusk, approx. 100 min  Occultation season (max. 20 min per orbit) October to February  725 km altitude  Launched 02 Nov 2009  Nominal operations since March 2010  Technology and science mission  4 innovative instruments and 17 technological experiments for in-orbit demonstration  Among them the EUV imager SWAP and the radiometer LYRA

4 LYRA  Large-Yield Radiometer  3 instrument units (redundancy)  4 spectral channels per head  3 types of detectors  Silicon + 2 types of diamond detectors (MSM, PIN):  - radiation resistant  - insensitive to visible light compared to Si detectors  2 calibration LEDs per detector  (λ = 465 nm and 390 nm)  High cadence up to 100 Hz (nom. 20)  First Light 06 Jan 2010  Quasi-continuous acquisition during mission lifetime

5 LYRA design and filter-detector combinations Ly (120-123nm) Hz (190-222nm) Al (17-80nm + <5nm) Zr (6-20nm + <2nm) Unit1 (spare)MSMPINMSMSi Unit2 (nominal)MSMPINMSM Unit3 (campaigns)SiPINSi

6 SWAP and LYRA spectral intervals for solar flares, space weather, and aeronomy LYRA channel 1: the H I 121.6 nm Lyman-alpha line (120-123 nm) LYRA channel 2: the 200-220 nm Herzberg continuum range (now 190-222 nm) LYRA channel 3: the 17-80 nm Aluminium filter range incl the He II 30.4 nm line (+ <5nm X-ray) LYRA channel 4: the 6-20 nm Zirconium filter range with highest solar variablility (+ <2nm X-ray) SWAP: the range around 17.4 nm including coronal lines like Fe IX and Fe X

7 LYRA spectral response

8 LYRA data products  Daily FITS file (uncalibrated, full resolution): “Lev1”  Daily FITS file (calibrated, full resolution): “Lev2”  Daily FITS file (calibrated, 1-minute averages): “Lev3”  Daily overview graphic  Daily flare list  Daily GOES proxy  3-day overview graphic  Monthly, yearly, complete overview graphics  SSA service (“Space Situational Awareness”, with SWAP)  … all updated several times per day, after satellite downlink http://proba2.sidc.be

9 LYRA data products: Daily list. Flare list

10 LYRA data products: Flare List LYRA data products: Flare list

11 LYRA data products: GOES vs. LYRA proxies

12 … also used for space weather service

13 LYRA data products: 3-day overview

14 LYRA data products: Monthly overview

15 LYRA data products: Long-term irradiance Development of daily minimum, i.e. without flares, Jan 2014 – Nov 2014

16 Long-term comparison Sunspot number, LYRA Aluminium and Zirconium channels, GOES soft X-ray (January 2010 – November 2014)

17 Long-term comparison Ratio (blue) between LYRA Zirconium channel and 6-36nm integrated SDO/EVE/MEGS-A spectrum (similar comparisons exist with SWAP, SORCE, SEM, ESP, …)

18 Periodicities present in the signal The periods at 28 days (solar rotation) and 160 days (Rieger periodicity) are well known, while a period at 100 days is not mentioned in the literature.

19 Occultations Demonstrating the evolution of spectral bandpasses: Ly-a ch2-1 in 2010 (blue), 2011 (green), 2012 (red)

20 Flares Detection of Lyman-alpha flares Flare-strength forecast attempt Quasi-periodic pulsations Multi-wavelength/-temperature analysis

21 Reminder  Please note:  Poster 6, today, by M. Dominique (“High-frequency QPP…”)  Poster 17, today, by D. Ryan (“New flare detection algorithm…”)  Poster 8, Wednesday, by A. Katsiyannis (“In-situ detection of space weather…”)  Talk at 09:00, Wednesday, by M. Dominique (“Using the spectral response…”)  The PROBA2 fair stand on Wednesday  We will tell you how to get our data…

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