Atomic Clock Technology - Chronos Technology Ltd · Why Atomic Clocks? Atoms of a given element and...
Transcript of Atomic Clock Technology - Chronos Technology Ltd · Why Atomic Clocks? Atoms of a given element and...
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Atomic Clock Technology
ITSF 0713 November 2007Dr. R. Michael GarveyDr. R. Michael [email protected]
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Outline
Goals and definitions of terms Atomic resonance properties and interrogationAtomic resonance properties and interrogation
techniquesBasic atomic clock architectureCesium beam atomic clocksHydrogen maser atomic clocksHydrogen maser atomic clocksRubidium gas cell atomic clocksContrast cesium hydrogen and rubidiumContrast cesium, hydrogen, and rubidium
performanceOther clock technologies
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Other clock technologies
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Goals
Understand different clock technologies so that intelligent decisions can be made to optimizeintelligent decisions can be made to optimize system performance, cost, lifetime and reliability.
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Terms: Normalized Frequency
Normalized frequency: Also called “fractional frequency offset”Also called fractional frequency offset
0(
(y
Example: 1 Hz offset at 5 MHz (4 999 999 Hz) is 2e 7-1 Hz offset at 5 MHz (4 999 999 Hz) is -2e-7
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Terms: Allan Deviation
The Allan deviation is a statistical measure (analogous to the well known standard deviation)(analogous to the well known standard deviation) of frequency stability.
2/1 2/11
1
21y )(
)1(21)(
Mi
iii yy
M
Allan deviation can be predicted from basic atomicAllan deviation can be predicted from basic atomic resonance parameters (more on this later)
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Why Atomic Clocks?
Atoms of a given element and isotope are identicalProperly designed apparatus can interrogateProperly designed apparatus can interrogate
atomic resonances to form precise and stable frequency referencesq y
The best atoms are “hydrogen like” in their atomic structure: 1H, 133Cs, 87Rb.
While cesium defines the SI second, stored ions and optical transitions in other atoms (199Hg+, 171Yb+, 88Sr+, Ca) may be candidates for evolutionary laboratory standards.
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Basic (Passive) Atomic Clock
DetectorSynthesizer Atoms
OscillatorRF Output
ServoDivider
Clock OutputCesium: 0 = 9 192 631 770 Hz (definition)Hydrogen: 0 = 1 420 405 751 770 (3) Hz
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Hydrogen: 0 = 1 420 405 751.770 (3) HzRubidium: 0 = 6 834 682 610.904 29(9) Hz
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Atomic Energy Levels and Resonance
E2
E2-E1 = hv0
E1
--Atoms can reside only inwell defined energy states--Transitions between energy
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Transitions between energy states define a resonance, usually in the microwave region
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Accuracy and StabilityAccuracy and Stability
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Accuracy vs Stability
.. ............2
3
4
1 5
67
8
9
10
1211
..........
Stable-not accurate Stable-linear drift-not accurate
. . . ....
...
...... .......
10Accurate-not stable (noisy) Stable and Accurate
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Design Considerations
Accuracy: preserve the intrinsic accuracy of the atomic resonance
Short Term Stability: extract information with highest signal-to-noise from the atoms Characterized with Allan deviationCharacterized with Allan deviation
Long Term Stability: control the effects of time (aging) and environment (e g temperature) on the(aging) and environment (e.g. temperature) on the atomic interrogation?
Accuracy and stability are usually interrelated. How do we achieve reasonable size, cost, and
operational reliability?
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Accuracy
Presumption of ensemble of identical unperturbed atoms at rest at 0 Katoms at rest at 0 K
Realities of practical devices: Atoms are in motion: Doppler effects pp Confinement effects Interrogation effects Environmental effects
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Calibration vs Accuracy vs Stability
Calibration does not guarantee accuracy indefinitely
The second is the duration of 9 192 631 770 periods of the radiation corresponding to the transition between the two hyperfine levels of the ground state of the cesium 133 atomhyperfine levels of the ground state of the cesium 133 atom
13th Conférence Général des Poids et Mesures (1967)
Clarification of 1997: …cesium atoms at rest at a temperature of 0 K.
Stability implies absence of noise or change says nothing Stability implies absence of noise or change—says nothing about accuracy
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Frequency Offsets
Clocks operate with frequency offsets with respect to the atomic resonance frequency; understanding and q y gcontrolling these offsets is essential
“Primary” frequency standards either have no offsets or ffwe can precisely calculate and control offsets
Offsets we can calculate and stabilize are OKS ff t ’t b tl l l t d d iSome offsets can’t be exactly calculated and require
calibration
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Atomic Resonance RequirementsNarrow resonance – we seek resonances with high
quality factor
WovQ 0 is resonance frequency and
W is atomic linewidth
High signal-to-noise ratio – good short term stability
QNSy *:1)(
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Atomic State Populations
--Atoms can reside only in discrete energy states
E2
hv0
--States populations are essentially equal for microwave resonances in th l ilib i E2-E1 = hv0
h
thermal equilibrium
--Signal-to-Noise considerations require we alter
E1
hv0
qthe population distribution
--Common techniques to alter the population distributionthe population distribution include “optical pumping” and “state selection”
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Goal: deplete one state, induce transitions back into this state, detect the results
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Cesium Beam Frequency StandardsCesium Beam Frequency Standards
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Cesium Beam Frequency Standards
Cesium (caesium) resonance forms the i t ti ll k l d d d fi iti f th SIinternationally acknowledged definition of the SI second interval of time
M t t h l ll t li bilit d t bilitMature technology,excellent reliability and stability and performance at reasonable cost Two levels of performance in commercial products today Two levels of performance in commercial products today
Device of choice when superior long term stability (and environmental immunity) or when autonomy is(and environmental immunity) or when autonomy is required Intrinsic accuracy--calibration not required
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No “aging” of frequency
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Cesium Beam Tube Cartoon
9192 MHz
Detector
F=3F=3+
F=4S S
F=3F=3
+F=4F=4
N N
"B" M t"A" M t
F=4
"B" Magnet"A" Magnet
19Magnetically-Selected CBT
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Cesium Beam Tube
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Cesium Spectrum
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Cesium Spectrum(high resolution)
Linewidth 450 HzAtomic line Q 20 million
0 = 9 192 631 770 Hz
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Cesium Beam Block Diagram
RS 232
Direct Digital Synthesizer
Servoincluding DACs, ADCs,
microprocessor
5 MHz
9192631770 Hz
RS-232
Oven Controlled
Frequency Mulitplier/Synthesizer
User Output
Quartz Oscillator
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Atomic Beam Pluses and Minuses
+ Cesium beam is a primary standard and does not require calibration
+ Beam has no interaction with its “confinement” Most accurate and most stable atomic clock, in long term
+ No first order Doppler frequency offsets in properly + No first order Doppler frequency offsets in properly designed and built apparatus
+ Beam density is low enough for minimal self-interactiony g - Relatively complex and expensive apparatus - Linewidth limited by time-of-flight through the apparatus +/- Lifetime: 6 years for high performance; 12+ years for
standard performance
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National Company Atomichron circa 1958
Symmetricom TimeCesium circa 2007
Symmetricom5071A5071A
Circa 2007
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Active Hydrogen Maser Frequency Standards
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Active Hydrogen Masers
Active masers provide the best short term frequency stability for averaging times less than 1frequency stability for averaging times less than 1 day
Mature technology with good operating lifetime gy g p gand reliability
Relatively large, complex and expensiveDesign of choice when the ultimate frequency
stability is required
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Hydrogen Maser
Maser Signal(-105 dBm)
Magnetic ShieldsCavity
HydrogenSwitchingVaractor
MaserPhysicsPackage
Q t B lb
Tuning Varactor
Quartz Bulb
State Selector
Hydrogen Dissociator
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Source DischargeOscillator
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Maser Block Diagram
VaractorControl
28.75 Hz
IF A 105 dB
MPG
ReceiverAmplifier
L.O. Multiplier
PhaseDetector
&
IF Amp
5.751 KHz
5 751 KHz
-105 dBm
&10 MHz VCXO
Signal Buffers
14 digitSynthesizer
10 MHz 10 MHz
5.751 KHz
10 MHzMaser
PhysicsPackage
TuningVaractor Switching
Varactor
Source
SynchronousDetectors
CavityRegister
10 MHz405 KHz
28.75 Hz
Hydrogen
U/D
SourcePressureControl
PowerModule
110 VAC110 VAC24-29 VDC
HydrogenSource24 V
Battery
H2 supply
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24 29 VDC
Palladium Purifier
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Maser Accuracy and Stability
Thermal motion of the atoms induces a second-order Doppler effect of approximately - 5e-11.
Confinement (“wall shift”) of hydrogen atoms induces a frequency offset of approximately
3 e 11- 3 e-11.Cavity pulling—dependent on cavity tuning errorSpin exchange frequency shiftSpin-exchange frequency shiftMagnetic field in the atomic environment
To maintain aging of 2e-16/day requires that these effects be constant to better than 10 ppm/day
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pp y
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Active Hydrogen Maser
--Frequency Stability is+40X superior to high
f iperformance cesium--Requires frequency calibration
for most applicationspp
MHM 2010
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Passive Hydrogen MaserPassive Hydrogen Maser
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Passive Hydrogen Masers
Smaller size achieved by dielectric loading of maser cavitymaser cavity Lower cavity Q precludes maser oscillation—operates in
a passive mode using traditional frequency lock loop servo
Short term frequency stability better than cesiumE hibit f d ift/ i i f i t iExhibits frequency drift/aging inferior to cesiumSmall installed base; little long term experience Two manufacturers in Russia
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Passive Hydrogen Maser
Cavity Tuning
CavityPassiveHydrogen
Maser
Magnetic Shields
Dielectric
MaserPhysicsPackage
Signal OutputSignal Input
Storage Bulb
State Selector
S Di h
Hydrogen Dissociator
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Source DischargeOscillator
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Rubidium Gas Cell Frequency StandardsRubidium Gas Cell Frequency Standards
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Rubidium Gas Cell Frequency Standards
Most Widely Used Type of Atomic Clock Smallest, Lightest, Lowest Power, Least
Complex, Least Expensive, Longest Life, Good Performance Stability & ReliabilityPerformance, Stability & Reliability
Device of Choice When Better Stability Than a Crystal Oscillator is Neededa Crystal Oscillator is Needed Lower Aging, Lower Temperature Sensitivity,
Faster Warm-up, Excellent Retrace
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Gas Cell Confinement
NitrogenNitrogen
Rubidium
--Nitrogen atoms immobilize the rubidium atoms, slowing their velocity and minimizing wall collisions
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--Interaction between rubidium and buffer gas introduceslarge frequency offset (which must be calibrated)
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Optical Pumping
Excited Optical State--Incident pumping photons stimulate transitions into an excited optical state
--Atoms in the excited state d t th d t t
Optical pumping photons
hdecay to the ground states with equal probability
Continued pumping out of h h h--Continued pumping out of one ground state effectively moves the atoms into the other state
E1
E2 E2-E1 = hv0
atoms into the other state
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Rubidium Gas Cell
Magnetic Shield
Lamp Oven Filter Oven Cavity Oven
Filter AbsorptionLamp
RFExcitation
Filter Absorptionp
LampExciter
SignalOut
Photo-DetectorLamp
Rb-87 Rb-87Rb-85
Cell CellCoil
C-Field Coil C-FieldCurrent
(3) Oven Temperature Sensors and Heaters
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Rubidium Gas Cells
The cells in the latest i l RFS d icommercial RFS designs
have (along with their cavities) gotten much ) gsmaller. While this comes at the expense of a broader line lower Q andbroader line, lower Q and poorer short-term stability, good performance e.g.
( ) 1 11 t 1 d
Comparison between classic 1” long (LPRO) and latest ultra-miniature (X72) integrated Rb gas cells
y()= 1e-11 at 1 second can still be realized.
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Gas Cell Atomic Clock Pluses and Minuses
+ Buffer gas confinement allows small size and economical construction
+ Rubidium has a fortuitous isotope overlap to allow optical pumping
- Buffer gas introduces a large frequency shift which results in poor accuracy, is difficult to perfectly stabilize over time (aging) andperfectly stabilize over time (aging) and environment (temperature, barometric, etc) Buffer gas mixtures can reduce thermal effects, one gas
ith iti t t ffi i t (N ) d ithwith a positive temperature coefficient (N2) and one with a negative temperature coefficient (Ar)
Barometric effects (1e-10/atmosphere) are small and
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( p )non-cumulative
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Modular Rubidium Standard
Height less than 0.72”g
0.7”
3.0”3.5”
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Rubidium Standard Instruments
Defense
Rack Mount Instrumentation
Customization
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Rubidium Operational Accuracy
Rubidium gas cell devices are secondary standards which have great utility once calibratedwhich have great utility once calibrated Buffer gas offset is ~1e-6; to achieve aging of
<5e-11/month requires that buffer gas properties remain t t t 50 / th ( hi h i hi d)constant to <50 ppm/month (which is achieved)
Initial calibration is a factory process following an extended period (weeks) of aging and stabilizationextended period (weeks) of aging and stabilization
Subsequent calibration may be manual or automatic (eg by servo to GPS timing signals)automatic (eg by servo to GPS timing signals)
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Performance Comparisons
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Performance Comparisons
Aging – Change in frequency over time Cumulative over life or until recalibratedCumulative over life or until recalibrated
TemperatureShort Term Stability (noise)Short Term Stability (noise) Comes from resonance Q and signal-to-noise
Intermediate Term Stability Intermediate Term Stability Driven by environmental sensitivities in rubidium
Long Term StabilityLong Term Stability Driven by aging in rubidium and environmental
sensitivities in cesium
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Aging
Cesium beam exhibits no frequency aging behavior
Hydrogen maser exhibits aging of 2e-15 to 2e-16/day, improving with age
Rubidium gas cell exhibits typical frequency aging of 1 to 5e-11/month Aging effects in rubidium are not fully understood Aging effects in rubidium are not fully understood
– Physical/chemical loss of N2 buffer gas into the Rb film and/or glass envelope of the absorption/resonance cell?absorption/resonance cell?
– Light shift (AC Stark) effects? Early life rubidium aging can be much higher
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y g g g
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Temperature Performance
Cesium: 1e-15/ºC typical Difficult to characterize; origin uncertainDifficult to characterize; origin uncertain
Maser: <2e-15/ºC Difficult to characterize; origin uncertaincu t to c a acte e; o g u ce ta
Rubidium: 1 to 2e-12/º C typical Light shift effectsg Buffer gas effects RF Power effects Can be ameliorated by temperature compensation
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Atomic Clock Technologies
Intrinsic Stability Stability Aging Technology Intrinsic
AccuracyStability
(1s)Stability (floor)
g g(/day) initial to ultimate
Cost
Hydrogen Maser ~10-11 ~10-13 ~10-15 10-15 to 10-16 ~150X
C i B 10 13 10 11 10 14 il 20XCesium Beam ~10-13 ~10-11 ~10-14 nil ~20X
Passive H Maser ~10-10 ~10-12 5x10-15 10-15 ~40X
Rb Gas Cell ~10-9 ~10-11 ~10-13 10-11 to 10-13 ~X
Hi-quality Qz 10-6 to 10-8 ~10-12 ~10-12 10-9 to 10-11 ~0.5X
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q y
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Temperature Compensation
Temperature Compensation Requires No Additional H d i S M d D iHardware in Some Modern Designs.
It Does Require More Test Effort to Measure Uncompensated TC Calculate & Load Compen-Uncompensated TC, Calculate & Load Compensation Data, and Confirm Compensated TC.
Dynamics Limit Amount of Improvement –Temperature Sensor Location and Response Time Are Factors.
Compensation May Degrade Short-Term Stability Compensation May Degrade Short Term Stability Depending on Tuning Resolution and Compensation Algorithm.
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Emerging and Advanced Clock Technologies
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Emerging Clock Technologies
Coherent Population Trapping Clocksp pp g Uses lasers to perform the optical pumping
Chip Scale Atomic ClocksUlt i i t i d l i t Ultra miniature size and low power requirement
Optically pumped cesium beam Use optical techniques for state selection and detectionp q
Fountain Clocks Atoms are cooled and “tossed” upward in Earth’s gravity Used for primary standards where ultimate accuracy is desired
Optical clocks relying upon optical atomic transitions
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Physics Comparison
Filter AbsorptionLamp
RFSource
Conventional Rb Physics- Requires resonant microwave cavity
Cell CellCoil
LampExciter
Photo-DetectorLamp
Rb-87 Rb-87Rb-85
RF Discharge Resonance Cell
- RF Discharge lamp (1 Watt)- 3 (or 2) cells, ovens, controllers
Lamp In MicrowaveCavity
Coherent Population Trapping (CPT) Physics- High-bandwidth Vertical-Cavity Surface Emitting Laserg y g
(VCSEL)- Microwaves applied directly to VCSEL (No cavity)- Potential for very small oven assembly
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Symmetricom SA.31m
ll i ( / )Smaller Size (1/3 X72)51x51x18 mm
Lower Power (1/2 X72)( )5 W, 25 °C
Quartz oscillator footprint
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Chip Scale Atomic Clock
Ultra small, ultra low power, modest performance Power: <30 mW Stability: <1e-11 Allan deviation at 1 hour averaging time Size: < 1 cm3
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CSAC Physics Package CSAC Prototype
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Optically Pumped Cesium Beam
9192 MHz
PhotoDetectorF=3
+F=3
+F=3
+F=4
+F=4
Fluorescence Detection Laser Source
Optically Pumped CBT
Optical PumpingLaser Source
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Acknowledgements and Thanks
R&D Team at Symmetricom Technology Realization CenterRealization Center Donald Emmons Robert Lutwak Jinquan Deng Ahmed Rashed
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