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Calibrating measurements of precipitable water vapour
F. Kerber et al.
European Southern Observatory at Site 2010 Kislovodsk

Collaboration

University of Lethbridge, Canada
R. Querel, D. Naylor, G. Tompkins

U. Valparaiso

A. ChacСn, O. Cuevas, M. Cure, L. Cortes, M. Caneo, L. Illanes J. ThomasOsip, G. Prieto A. OtАrola, M. SchЖck, T. Travouillon R. Hanuschik, M. Sarazin, C. Guirao, G. Avila, G. Lo Curto, I. Saviane, A. Pizarro, G. Ihle, J. Navarette, A. Smette, D. Rabanus
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GMT, Las Campanas TMT ESO

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Outline

PWV why & how EELT site testing Goals Archival data reconstructing the past PWV campaigns what we have learned Results
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Atmospheric Water Vapour

Precipitable water vapour (PWV)

column of atmospheric water [mm] crucial for atmospheric opacity in IR Longterm: site quality Shortterm: operational issue

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EELT site testing

PWV is one factor for site selection Better understand atmospheric PWV
Variability Calibrate measurements

La Silla & Paranal wellestablished sites Report to Site Selection Advisory Committee
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Goals:

Reconstruct Record of Precipitable Water Vapour (PWV) over Paranal & La Silla Correlate with satellite data to establish Paranal & La Silla as reference sites for E ELT site evaluation Evaluate merit of methods for operational use at observatory
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Reconstructing the PWV History

La Silla Paranal
UVES & FEROS

Standard Star Observations
White dwarfs featureless spectrum Taken every UVES night; ~1200 observations useable Time coverage: 20002009 Wide slit: 5/10 arcsec UVES reprocessing with master calibration files
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Atmosphere Model: PWV

Atmospheric model BTRAM (Univ. Lethbridge)

HITRAN (2008) Multilayer atmospheric radiative transfer model Midlatitude profile modified with sitespecific archival radiosonde data from Antofagasta 580980 nm, >1000 lines Validated at LCO with MIKE observations Comparison with IRMA (Querel et al. 2008)

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Atmospheric Model: PWV
H2O only, PWV = 1 mm

All other constituents: CO2, O2
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Paranal: wet & dry

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Satellite Data

GOES
Time resolution 1 every 3 h, 24 h a day Spatial resolution 12 by 12 km (3 pixel binning) Brightness at 6.5 & 10.7 m clear nights only

ENVISAT
Time resolution 1 every 23 days, daytime MERIS: Spatial resolution 1 by 1 km Spectrum: 890900 nm

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UVES archival Data

Paranal

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PWV site statistics
Paranal Median PWV [ mm]
2.1 ± 0.3 (2.2) 2.4 ± 0.5 (1.8) 2.7 ± 0.3 (2.0)

< 1 mm < 1.5 mm [%] [%]
13.5 4.8 1.5 32 18.9 7.9

< 2 mm [%]
47.3 38 29

UVES GOES MERIS

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PWV site statistics
La Silla Median PWV [ mm]
3.4 ± 0.4 (2.4) 5.9 ± 0.6 (2.5) 3.6 ± 0.5 (2.3)

< 1 mm < 1.5 mm [%] [%]
3.3 0.02 0.8 9.2 0.4 11.2

< 2 mm [%]
18.4 1.8 20

FEROS GOES MERIS

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PWV Campaigns
Jul/Aug & Nov 2009

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PWV Campaigns in technical time

Paranal:
UVES 700 nm (~950 spectra, cadence 3060s) BACHES 700 nm (140 spectra, 1530 min) CRIRES 5050 nm (110 spectra) VISIR 19.5 m (65 spectra) IRMAs 20 m (~700 h, cadence sec)

Radiosonde balloon launches (U Valparaiso)
11.5 h, 2025 km altitude ~70 launches (La Silla, Paranal)

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Radiosondes

A. ChacСn et al. (U. Valparaiso)
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Radiosonde Profiles

Temperature Dew Point

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PWV over La Silla Paranal: Status

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Paranal vs Armazones

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IR M A

C R IR E S

UVES
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V IS IR
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Radiosonde vs GOES

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Results

Median PWV over La Silla Paranal EELT site evaluation
Paranal 2.4 mm La Silla 3.7 mm Armazones 2.1 mm (OtАrola et al. 2010: 2.9 mm)

Validated various methods with respect to radiosondes
700 nm 20 m 520%; 0.25/0.5 mm

Remote sensing data (satellites) usable for statistical analysis only, ok for site evaluation 29

Next Steps

Complete analysis (typical time scale of variability) Monitoring at Paranal:
http://www.eso.org/qc/GENERAL/PWV/HEALTH/trend _report_ambient_PWV_HC.html http://www.eso.org/sci/facilities/paranal/sciops/CALISTA /pwv/data.html

VISIR upgrade includes PWV PWV forecasting using WRF model (U. Valparaiso)
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PWV Time dependence

IRMA 10 days PWV typical time constant is hours

T. Travouillon
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PWV Time dependence

A. OtАrola
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PWV Time dependence

A. OtАrola
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VISIR upgrade project

VISIR: midIR imager & spectrograph at VLT
10 m (Nband) & 20 m (Qband)

VLT: Visitor/service mode: ~50/50 split Optimise use of low PWV Standalone high time resolution monitor PWV as userdefined constraint

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VISIR upgrade project

Science benefit for demanding observations
imaging of faint sources in Q, highprecision photometry, spectroscopy of H2 00 S(1) at 17.02 µm, imaging and spectroscopy in Nband < 8 µm, detection of water vapour in circumstellar disks
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Next Steps

PWV as operational tool

VISIR: 712%

Standalone monitor on Paranal VISIR upgrade Constraint for SM observations

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Summary Goals met

History of PWV over La Silla & Paranal reconstructed from archival data Paranal as reference site for Northern Chile Feedback to Site selection process Merit for Observatory operations

Monitoring with high accuracy feasible PWV crucial tool for scheduling of service mode
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Summary Future

PWV monitor: Standalone, high time resolution, high accuracy VISIR: Observing constraint service mode Benefit to other instrument (CRIRES, MIDI, ISAAC, ...) Comprehensive atmospheric monitoring essential part of infrastructure for EELT
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Courtesy:Wor3dle.net 9