Richard S. Ottens*, V. Quetschke†, G. Mueller*, D.H. Reitze*, D.B. Tanner* *University of Florida,...
-
Upload
frederick-allison -
Category
Documents
-
view
219 -
download
0
Transcript of Richard S. Ottens*, V. Quetschke†, G. Mueller*, D.H. Reitze*, D.B. Tanner* *University of Florida,...
![Page 1: Richard S. Ottens*, V. Quetschke†, G. Mueller*, D.H. Reitze*, D.B. Tanner* *University of Florida, †University of Texas at Brownville NSF PHY-0555453 DCC#](https://reader030.fdocuments.us/reader030/viewer/2022033103/56649e2b5503460f94b198a3/html5/thumbnails/1.jpg)
Richard S. Ottens*, V. Quetschke†, G. Mueller*, D.H. Reitze*, D.B. Tanner*
*University of Florida, †University of Texas at Brownville
NSF PHY-0555453DCC# LIGO-G1200547
![Page 2: Richard S. Ottens*, V. Quetschke†, G. Mueller*, D.H. Reitze*, D.B. Tanner* *University of Florida, †University of Texas at Brownville NSF PHY-0555453 DCC#](https://reader030.fdocuments.us/reader030/viewer/2022033103/56649e2b5503460f94b198a3/html5/thumbnails/2.jpg)
TheoryExperimental setupResultsApplication in LIGOCurrent standing
![Page 3: Richard S. Ottens*, V. Quetschke†, G. Mueller*, D.H. Reitze*, D.B. Tanner* *University of Florida, †University of Texas at Brownville NSF PHY-0555453 DCC#](https://reader030.fdocuments.us/reader030/viewer/2022033103/56649e2b5503460f94b198a3/html5/thumbnails/3.jpg)
Exponentially decaying EM field outside a material medium
Produced by total internal reflection inside a medium.
For a propagating wave in the transmitted medium
ktx and ktz can be found by using Snell’s Law. In the case of total internal reflection (sini > nt/ni)
Thus resulting in,
Etz is exponentially decaying
z
kikr
kt
xni
nt
tizkxik
tt eeeEEi
tn
int
itnin
t
1sinsin
0
22
2
i r
t
![Page 4: Richard S. Ottens*, V. Quetschke†, G. Mueller*, D.H. Reitze*, D.B. Tanner* *University of Florida, †University of Texas at Brownville NSF PHY-0555453 DCC#](https://reader030.fdocuments.us/reader030/viewer/2022033103/56649e2b5503460f94b198a3/html5/thumbnails/4.jpg)
If another medium is brought near the interface, then some of the energy emitted in the z direction can propagate into the new material.
This condition known as frustrated total internal reflection (photon tunneling).
![Page 5: Richard S. Ottens*, V. Quetschke†, G. Mueller*, D.H. Reitze*, D.B. Tanner* *University of Florida, †University of Texas at Brownville NSF PHY-0555453 DCC#](https://reader030.fdocuments.us/reader030/viewer/2022033103/56649e2b5503460f94b198a3/html5/thumbnails/5.jpg)
Heat transfer coefficient W is the sum of two parts Wsin and Wexp
Wsin is for propagating fields (far-field)
Wexp is for the near-field
0
d ε
ε
1
k
kkv
0
d ε
ε
k
k
1
![Page 6: Richard S. Ottens*, V. Quetschke†, G. Mueller*, D.H. Reitze*, D.B. Tanner* *University of Florida, †University of Texas at Brownville NSF PHY-0555453 DCC#](https://reader030.fdocuments.us/reader030/viewer/2022033103/56649e2b5503460f94b198a3/html5/thumbnails/6.jpg)
![Page 7: Richard S. Ottens*, V. Quetschke†, G. Mueller*, D.H. Reitze*, D.B. Tanner* *University of Florida, †University of Texas at Brownville NSF PHY-0555453 DCC#](https://reader030.fdocuments.us/reader030/viewer/2022033103/56649e2b5503460f94b198a3/html5/thumbnails/7.jpg)
To measure the heat transfer we take the ratio of power going to the heater to the area times the difference in temperature of the two plates
By moving the two plates closer together we should see an increase of the power going to the heater
RFF RNFRConduction
THot
TCold
![Page 8: Richard S. Ottens*, V. Quetschke†, G. Mueller*, D.H. Reitze*, D.B. Tanner* *University of Florida, †University of Texas at Brownville NSF PHY-0555453 DCC#](https://reader030.fdocuments.us/reader030/viewer/2022033103/56649e2b5503460f94b198a3/html5/thumbnails/8.jpg)
Sapphire Plate
Kinematic Mount
Capacitor Plates
Temperature Sensors
HeaterMacor SpacerSupport
Structure
![Page 9: Richard S. Ottens*, V. Quetschke†, G. Mueller*, D.H. Reitze*, D.B. Tanner* *University of Florida, †University of Texas at Brownville NSF PHY-0555453 DCC#](https://reader030.fdocuments.us/reader030/viewer/2022033103/56649e2b5503460f94b198a3/html5/thumbnails/9.jpg)
![Page 10: Richard S. Ottens*, V. Quetschke†, G. Mueller*, D.H. Reitze*, D.B. Tanner* *University of Florida, †University of Texas at Brownville NSF PHY-0555453 DCC#](https://reader030.fdocuments.us/reader030/viewer/2022033103/56649e2b5503460f94b198a3/html5/thumbnails/10.jpg)
Four data runs at four different temperature differences (offset by 2 W/m2K from each other)Model prediction is in solid blackCorrection for bend in sapphire plate is in dashed black
![Page 11: Richard S. Ottens*, V. Quetschke†, G. Mueller*, D.H. Reitze*, D.B. Tanner* *University of Florida, †University of Texas at Brownville NSF PHY-0555453 DCC#](https://reader030.fdocuments.us/reader030/viewer/2022033103/56649e2b5503460f94b198a3/html5/thumbnails/11.jpg)
Future versions of LIGO may be cryogenicTo reduce thermal noiseA need arises to remove absorbed laser power from the test masses ~3W
Methods of Heat Transfer
Convection <<1μWConduction ~60mWRadiation ~700mW(far field)
Gravitational Wave Interferometer Noise Calculator (GWINC) , Sam Finn et al, 1999Pushing towards the ET sensitivity using ‘conventional’ technology, Stefan Hild et al, 2008
![Page 12: Richard S. Ottens*, V. Quetschke†, G. Mueller*, D.H. Reitze*, D.B. Tanner* *University of Florida, †University of Texas at Brownville NSF PHY-0555453 DCC#](https://reader030.fdocuments.us/reader030/viewer/2022033103/56649e2b5503460f94b198a3/html5/thumbnails/12.jpg)
Implementing near field cooling BackBack
Only have to deal with Only have to deal with one surfaceone surfaceHave to deal with noise Have to deal with noise coupling due to coupling due to electrostatics and electrostatics and Casimir forceCasimir force
SidesSidesHave to deal with Have to deal with multiple surfacesmultiple surfacesNoise coupling has Noise coupling has minimal impact minimal impact
Back and SidesBack and Sides
Conduction through the fibers: 4.4x10Conduction through the fibers: 4.4x10-6-6 W/K (<< far field radiation) W/K (<< far field radiation)
![Page 13: Richard S. Ottens*, V. Quetschke†, G. Mueller*, D.H. Reitze*, D.B. Tanner* *University of Florida, †University of Texas at Brownville NSF PHY-0555453 DCC#](https://reader030.fdocuments.us/reader030/viewer/2022033103/56649e2b5503460f94b198a3/html5/thumbnails/13.jpg)
Modified to work in cryogenic conditionsThicker Sapphire platesBoth sapphire plates will be thermally controlled
![Page 14: Richard S. Ottens*, V. Quetschke†, G. Mueller*, D.H. Reitze*, D.B. Tanner* *University of Florida, †University of Texas at Brownville NSF PHY-0555453 DCC#](https://reader030.fdocuments.us/reader030/viewer/2022033103/56649e2b5503460f94b198a3/html5/thumbnails/14.jpg)
The new sapphire plates have a bigger bevel.This adds a stray capacitance to the total which causes our distance measurements to be less accurateA work in progress
TOP VIEW
SIDE VIEW
ANGLED VIEW
![Page 15: Richard S. Ottens*, V. Quetschke†, G. Mueller*, D.H. Reitze*, D.B. Tanner* *University of Florida, †University of Texas at Brownville NSF PHY-0555453 DCC#](https://reader030.fdocuments.us/reader030/viewer/2022033103/56649e2b5503460f94b198a3/html5/thumbnails/15.jpg)
Originally we fit to the equation
![Page 16: Richard S. Ottens*, V. Quetschke†, G. Mueller*, D.H. Reitze*, D.B. Tanner* *University of Florida, †University of Texas at Brownville NSF PHY-0555453 DCC#](https://reader030.fdocuments.us/reader030/viewer/2022033103/56649e2b5503460f94b198a3/html5/thumbnails/16.jpg)
Depending on which case we use and if we approximate we can get different values for the fitsThese fits can be about 5 µm off from one another
CASE 4CASE 2 CASE 3CASE 1
![Page 17: Richard S. Ottens*, V. Quetschke†, G. Mueller*, D.H. Reitze*, D.B. Tanner* *University of Florida, †University of Texas at Brownville NSF PHY-0555453 DCC#](https://reader030.fdocuments.us/reader030/viewer/2022033103/56649e2b5503460f94b198a3/html5/thumbnails/17.jpg)
With thicker sapphire plates Less bendDirt becomes a bigger problem
Even in the UF LIGO clean room there is still dust from wipes and sticky sediment from unknown origin (likely from the clean solutions).We are working on a method for cleaning to clean the sapphire plates.
Drag wipe with acetoneDrag wipe with methanol Coat with first contact (but not on capacitor plates)
![Page 18: Richard S. Ottens*, V. Quetschke†, G. Mueller*, D.H. Reitze*, D.B. Tanner* *University of Florida, †University of Texas at Brownville NSF PHY-0555453 DCC#](https://reader030.fdocuments.us/reader030/viewer/2022033103/56649e2b5503460f94b198a3/html5/thumbnails/18.jpg)
Measured evanescent-wave heat transfer across a small gap and it agrees with theoryCan potentially be used to take excess heat from mirrors in LIGOWorking on important issue to ensure proper measurements