the art and technique of vlbi 5 km of vlbi tape (value $1000) on onsala control room floor due to...
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The Art and Technique of VLBI
5 km of VLBI tape (value $1000) on Onsala
control room floor due to incorrectly mounted
tape on drive while pre-passing tape in
preparation for a VLBI experiment.
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VLBI Principle
Basic observable: time difference of signal arrival
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Global VLBI Stations
Geodetic VLBI network + some astronomical stations (GSFC VLBI group)
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VLBA Station Electronics
Walker (2002)
At Antenna:
● Select right or left circular polarization
● Add calibration signals
● Amplify
● Mix with local oscillator signal to
translate frequency band down to
500 – 1000 MHz for transmission
In building:
● Distribute copies of signal to 8
baseband converters
● Mix with local oscillator in BBC to trans-
late band to baseband (0.062 – 16 MHz)
● Sample (1 or 2 bit)
● Format for tape
● Record
● Keep time and stable frequency
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Station Electronics: Feed Horn
Johnson & Jasik (1984)
1. Want linear field shape in aperture
for high polarization purity, but modes in
circular waveguide are not linear.
So, introduce a step to excite two special
modes that sum to give a linear field shape
2. Want broad bandwidth, but
step 1. works for only one
frequency since the two modes
propagate at different speeds at
different frequencies.
So, corrugate the surface to make
modes propagate at same speed.
3. Want beamwidth matched to
size of telescope, so make aperture
as broad as needed.
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Station Electronics: Polarizer
Chattopadhyay et al. (1998)
James & Hall (1989)
90◦ hybrid junction
(converts linear to circular polarization)
Orthomode transducer
(separates polarizations)
Signal 1
Other linear
comes out here
Send orthogonal linear
polarizations in here
One linear
comes out here
Signal 2 Signal 2 + e-i π/4 Signal 1
Signal 1 + e-i π/4 Signal 2
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Station Electronics: Low-Noise Amplifier
4 stage 100 GHz InP MMIC amplifier
(MMIC = monolithic microwave integrated circuit)
Input waveguide
DC voltage supply for
transistors
Transistor junctions
(amplification happens here)
Impedance matching network
Dipole probe into waveguide
couples to electric field
Output waveguide
indium phosphide
MMIC
Metal mounting block
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Station Electronics: Receiver
ATNF multi-band mm-wave receiver
Stirling-cycle refrigerator
Polarizer
Low-noise amplifiers
Thermal gap in waveguide
Feed horns
Copper straps for heat
transport to refrigerator
15 K stage
77 K stage
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Station Electronics: Downconversion
Best cables: air dielectric + bigger diameter -> 2.3 dB / 100 m.
But they don't bend much and are expensive.
How?Multiply signal by sinusoid at a known, stable frequency ωLO.
Generates sum and difference frequencies:
A(t) . sin(ωt) . cos(ωLO t) = 2 . A(t) . [sin(ω + ωLO) + sin(ω - ωLO)]
Filter off the sum (too high frequency) -> A(t) . sin(ω - ωLO)
Send this intermediate frequency (IF) signal down the cable.
a: Outer plastic sheath
b: Copper shield (outer conductor; cylindrical)
c: Dielectric insulator
d: Copper core (inner conductor)
For RG 58 coaxial cable:
Loss at 1 GHz = 66 dB / 100 m
Dielectric loss ~ frequency
8.4 GHz and 400 m: 10-222 of signal comes out
Why?
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Station Electronics: Baseband Converter
IF Distributor: make multiple copies of the IF signal
send each to a baseband converter
Baseband Converter (BBC):
Amplify further
Downconvert from intermediate frequency
to zero frequency
Filter to selectable bandwidth of
16 MHz, 8 MHz, 4 MHz, ... 0.0625 MHz
Samplers: Convert analogue to 1 bit or 2 bit digital
at Nyquist rate (ie 2 x BBC filter bandwidth)
One sampler per BBC
Formatter: Receive digital streams from samplers
Receive time from the station clock
Prepare frames with time and data
Distribute to tracks of recorder
Sampler and Formatter
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Station Electronics: Recorder
Mark 5 disk-based recorder
Records 1 Gbps for 12 h unattended
Commercial off-the-shelf PC components
Prototype worked after 3 months of project start
Developed starting 2001.
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Station Electronics: Recorder: A Paradox
Two element interferometer is a Young's double slit
Each photon passes through both antennas (slits)
The Paradox: VLBI records signal for later playback
So, play back once and get fringes
play back a second time and count photon arrivals at slit
The Resolution: Amplifier must add noise > hv/k (>> signal)
Signal phase preserved and can't count signal photons
Burke (1969) Nature
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Station Electronics: Recorder
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hydrogen maser – hydrogen maser hydrogen maser – rubidium
Station Electronics: Time and FrequencyStandard
EVN June 2005, project EI008
Torun H-maser failed and was away for repair
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Station Clock
Stability: 3x10-15 over 1000 s (1 s in 107 yr) 1x10-12 over 1000 s
Cost: ~ 200 kEUR (!) ~ 5 kEUR
Manufacturers: Smithsonian Astrophysical Observatory (USA)
Observatoire de Neuchatel (Switzerland)
Sigma Tau (now Symmetricom) (USA)
Communications Research Lab (Japan)
Vremya-CH (Russia)
KVARTZ (Russia)
A commercial rubidium standard
An EFOS hydrogen maser with covers removed (Neuchatel)
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Station Clock: Hydrogen Maser
(TE011 cavity tuned to 1420 MHz)
(H2 -> H + H)
Humphrey et al. (2003)
Output is extremely stable due to:
●long atomic storage time (1 s)
gives narrow resonance line
●no wall relaxation (teflon coating)
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Station Clock: Stability is not Accuracy
eg: H maser Rubidium Caesium Optical (?)eg: H maser Rubidium Caesium Optical (?)
(Illustration from Percival, Applied Microwave & Wireless, 1999)
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Station Clock: Rate and Drift
(EFOS hydrogen maser from Obs. Neuchatel)
0.5 μs
1 month (= 3x1012 μs)
Rate = 0.5 μs / 3x1012 μs = 1.7x10-13 s/sCompare to correlator delay window: ~ 1 μs
Drift due to cavity frequency change (due temperature, ...)
Effelsberg maser – GPS time, April 2005
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Future: Optical Time & Frequency Standards?
Gill & Margolis
Physics World May 2005
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Optical Clock: Ion Trap
Physikalisch-Technisch Bundesanstalt (PTB) - Germany
Paul trap: ring electrode, 1.3 mm diameter
and end caps
Crystal of five stored 172Yb+ ions
(fluorescence emission)
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Optical Clock: Schematic and Resonance Signal
Physikalisch-Technisch Bundesanstalt (PTB) - Germany
Cooling laser and interrogation laser are applied alternately
In each cycle, interrogation frequency is increased or decreased
Fluorescence signal during subsequent cooling tells of deviation from line resonance
(435.5 nm = 6.9x1014 Hz)
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Stability Measurement: Allan Variance
Thompson, Moran & Swenson (1986)
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Hydrogen Maser: Stability for mm-VLBI
For VLBI at wavelength of 1 mm (300 GHz):
integration time 100 s -> coherence 0.9
integration time 1000 s -> coherence 0.6
Thompson, Moran & Swenson (1986)
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Ship Data to Correlator
2000 GB / 3 days = 60 Mbps
Price: ~ 50 EUR to 150 EUR
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Correlator
JIVE Correlator, Dwingeloo, NL
For EVN production correlation
MPIfR/BKG Correlator, Bonn
VLBA Correlator, Socorro, USA
USNO Correlator, Washington
Haystack Correlator
Mitaka Correlator, Japan
LBA Correlator, Sydney, Australia
Penticton Correlator, Canada
● Play back disks or tapes
● Synchronize data to ns level
● Delay the signals according to model
● Correct Doppler shift due Earth
rotation
● Cross correlate (-> lag spectrum)
● Fourier transform
(lag spectrum -> frequency spectrum)
● Average many spectra for 0.1 s to 10 s
● Write data to output data file for
post processing
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Correlator
Mark IV Correlator Block Diagram
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Correlator: Delay Model (CALC)
Adapted from Sovers et al. (1998) by Walker (1998)
BKG Sonderheft “Earth Rotation” (1998)
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Correlator
Mark IV Correlator Board: 1 of 16 (total is equal to 1000 Pentiums at 3 GHz)
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Correlator: The Fundamental Operation
Telescope 1 -> 1 0 1 1 0 0
Telescope 2 -> 1 0 1 1 0 0
XOR 0 1
0 1 0
1 0 1
Σ (= 6) N (= 1.0)
Telescope 1 -> 1 0 1 1 0 0
Telescope 2 -> 0 1 0 0 1 1
(= -1.0)(same processing as above)
Telescope 1 -> 1 0 1 1 0 0
Telescope 2 -> 0 0 1 0 1 0
(= 0.0)(same processing as above)
Case 3: Uncorrelated signals
Case 2: Perfectly anti-correlated signals
Case 1: Perfectly correlated signals
-0.5 (= 0.5) *2 (=1.0)
(normalization)
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A Single Correlator
Romney (1998)
Antenna 1 ->
Antenna 2 ->
Single-sample delays (shift register)
XOR Σ
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A Single Correlator: Typical Output
Lag Spectrum:
correlation
coefficient
x 106
Fourier Transform
Frequency Spectrum:
Frequency (channels)
phase
amplitude
Time lag (channels)
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Mark IV Correlator
Mark IV Correlator Board BlockSchematic Whitney et al. (2004)
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Post Processing: Raw Residual Data
Walker (2002)
Frequency channel Frequency channel
Phase slope in time
is “fringe rate”
Phase slope in
frequency is delay
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Post Processing: Effect of a Delay Error
Path length = L
Delay τ = L / c
phase: φ1 = 2π τ v
phase: φ2 = φ1+ dφ = 2π τ (v + dv)
Phase difference: φ2 – φ1 = dφ = 2 π τ dν
dφ / dν = 2 π τ
A gradient of phase with frequency indicates a delay error
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Fringe Fitting: Basics
V(frequency)
V(time)
1D FFTV(time delay)
1D FFTV(fringe frequency)
V(time delay, fringe frequency)2. V(frequency, time)2D FFT
Fringe Fitting: (self calibration with first derivatives in time and frequency)
3. Find location of peak amplitude in the tranform -> gives delay & rate
Astronomy: correct the visibility data for measured delay and rate.
4. Geodesy: stop here. Measured delay is the observable. Add this
to the correlator model delay to obtain the total delay.
1. Divide visibilities by source model to remove source structure phase
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Fringe Fitting: High SNR Case: EB-SC
Source is easily seen in a single integration time-frequency channel
Movies by Moellenbrock (2002) ; layout Walker (2002)
Time
Frequency Delay
Fringe rateAmplitude of Fourier transformInput phases
2D FFT
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Fringe Fitting: Low SNR Case: HN-Halca
Source cannot be seen in a single integration time-frequency channel
Time
Frequency Delay
Fringe rateAmplitude of Fourier transformInput phases
2D FFT
Movies by Moellenbrock (2002) ; layout Walker (2002)
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Fringe Fitting: The Result
Frequency
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Geodetic VLBI: The Measurement Principle
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Geodetic VLBI: Polar Motion
Two components:
1.0 yr period “annual component”
1.18 yr period “Chandler wobble” discovered in 1891, explained in 2000:
Fluctuating pressure at ocean bottom due to temperature and salinity
changes, wind-driven change in ocean circulation and atmospheric
pressure fluctuations (Gross 2000, Geophys. Res. Lett.)
BKG Sonderheft “Earth Rotation” (1998)
17.7.1995
3 m
1.1.1991
500 mas
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Geodetic VLBI: Polar Motion
Polar motion is affected by distribution of atmosphere
in addition to oceans
BKG Sonderheft “Earth Rotation” (1998)
Pole y coordinate after subtracting the Chandler component
Equatorial component of the atmospheric angular momentum
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Geodetic VLBI: Length of Day Variations
Subtract Chandler variation from Length of Day:
BKG Sonderheft “Earth Rotation” (1998)
1 ms/day = 0.46 m/day
= 15 mas/day
(Vrotation = 465 m/s at
equator)
Length of day and atmospheric angular
momentum are highly correlated:
LoD is affected by wind
Length of day
Atmospheric angular momentum
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Earth Orientation Parameter Errors and Spacecraft Navigation
Mars Reconnaissance Orbiter
Launched 12 Aug, 2005
Cameras & spectrometers for mineral analysis
Ground-penetrating radar for sub-surface water ice
$500 million spacecraft cost
Will arrive at Mars March, 2006
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Earth Orientation Parameter Errors and
1 to 5 days without measuring LOD
-> error > altitude tolerance
-> Mars Reconnaissance Orbiter would
burn up or miss Mars
1.6 x 109 km
Mars
MRO
Length of Day affects telescope position
1 ms/day = 0.46 m/day at earth equator
= 27 km/day at Mars
Altitude for mars orbit insertion = 300 km
Altitude for aerobraking = 105 +/- 15 km
This angle will give Mars Reconnaissance Orbiter position
Spacecraft Navigation
105 +/- 15 km
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Polar Motion: Wavelet Analysis
Fourier & wavelet spectra of a test signal
Polar motion and its wavelet spectrum
BKG Sonderheft “Earth Rotation” (1998)
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EOP and Ocean Tides
Ocean tide (O1) and zonal tide (M2)
(periods ~ 12 h)
Influence of ocean tide on UT1
Influence of ocean tide on pole position
2 mas
0 ms
-2 mas
1 – 10 January 1995
BKG Sonderheft “Earth Rotation” (1998)
VLBI measurements Tide model
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Station Positions and Continental Drift
1 – 10 January 1995
GSFC VLBI group (Jan 2000 solution)
● Continental drift is clear
● Precision of baseline measurement improves with time
1984
Baseline length Westford-Wettzell
30 cm
1999
Component perpendicular to baseline
20 cm
![Page 48: The Art and Technique of VLBI 5 km of VLBI tape (value $1000) on Onsala control room floor due to incorrectly mounted tape on drive while pre-passing tape](https://reader036.vdocuments.site/reader036/viewer/2022062520/56649dd05503460f94ac4f8b/html5/thumbnails/48.jpg)
Station Positions and Continental Drift
1 – 10 January 1995