probing quantum geometry with coupled interferometers and ...hep.itp.tuwien.ac.at › ~miw ›...
TRANSCRIPT
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Probing Quantum Geometry with
Coupled Interferometers and
Quantum Light
Ivo Pietro Degiovanni
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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INRIM Quantum Optics Group
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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INRIM Quantum Optics Group
Ivano RUO BERCHERA
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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INRIM Quantum Optics Group
Ivano RUO BERCHERA Marco GENOVESE
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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INRIM Quantum Optics Group
Ivano RUO BERCHERA Marco GENOVESE
Stefano OLIVARES
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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INRIM Quantum Optics Group
Ivano RUO BERCHERA Marco GENOVESE
Stefano OLIVARES ME
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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• Physics laws become non-consistent at the
Planck length level (𝑙𝑝 = 𝑐 𝑡𝑝 = 1,6 10−35 𝑚)
• Quantum geometry postulates space-time and
gravity emerge as an average over more fundamental degree of freedom existing at the Planck scale.
• The “emergent” space-time is said to be holographic
• Although quantum geometry approximates classical space-time on large scale, the Hogan’s quantum geometry describes new quantum properties of collective positions of massive bodies
Holographic Noise
G. Hogan, Arxiv: 1204.5948
G. Hogan, Phys. Rev. D 85, 064007 (2012)
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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• Hogan’s effective theory postulates that position operators in different directions do not commute
Sort of space-time uncertainty principle (L= radial separation)
𝑥1
𝑥2
𝑥3
G. Hogan, Arxiv: 1204.5948
G. Hogan, Phys. Rev. D 85, 064007 (2012)
Holographic Noise
(This heuristic approach allows to derive the holographic principle)
This new quantum uncertainty of space-time induces a slight random wandering of transverse position (called “holographic noise”)
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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Holometer (Holographic Interferometer) to measure the possible presence of a very slight random wandering of transverse position (the "holographic noise") over an extended volume of space-time is currently under construction @Fermilab
http://holometer.fnal.gov/
Holometer for HN observation
Holometer @Fermilab: two coupled ultra-sensitive Michelson interferometers (40 m arms)
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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In Michelson interferometer the phase shift (f) can be seen as a simultaneous measurement of the position of the beam splitter (𝑥1−𝑥2). Holographic noise accumulates as a random walk becoming detectable
𝑥1
𝑥2
Holographic Noise and the Holometer
d
d
𝑎
𝑏
𝑐
𝑑
𝝓
𝑁𝑐
𝑁𝑑
The random walk is bounded (an interferometer measures HN within the causal boundaries defined by a single light round trip) ( : the longest time over which differential random walk affects the measured phase) G. Hogan, Arxiv: 1204.5948
G. Hogan, Phys. Rev. D 85, 064007 (2012)
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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HOLOMETER: principles of operation • Evaluation of the cross-correlation between two equal Michelson interferometers occupying the same space-time volume • Reference measurement: HN correlation «turned off» by separating the space-time volumes of the two interferometers
Holographic Noise and the Holometer
BS
BS
BS
M1 M2
Single Interferometer Holometer
«Overlapping» space-time volume
«Separated» space-time volume
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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The model
«Overlapping» «Separated»
: quantum observable measured at the output of the holometer
AIM: HN detected by measuring the phase covariance between the two interferometers of the holometer
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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The model
: quantum observable measured at the output of the holometer
AIM: HN detected by measuring the phase covariance between the two interferometers of the holometer
linearization Sensitivity Coefficient
«Overlapping» «Separated»
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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The model
: quantum observable measured at the output of the holometer
AIM: HN detected by measuring the phase covariance between the two interferometers of the holometer
linearization Sensitivity Coefficient The uncertainty should be reduced as much as possible
«Overlapping» «Separated»
PRL 110, 213601 (2013)
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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The model
Phases covariance uncertainty
«Overlapping» «Separated»
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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The model
Phases covariance uncertainty
«Overlapping» «Separated»
Quantum EV
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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The model
Phases covariance uncertainty
«Overlapping» «Separated»
Quantum EV pdf of phase fluctuations due to HN
•
•
PRL 110, 213601 (2013)
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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The model
Phases covariance uncertainty
«Overlapping» «Separated»
Quantum EV pdf of phase fluctuations due to HN
linearization
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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The model
Phases covariance uncertainty
«Overlapping» «Separated»
Quantum EV pdf of phase fluctuations due to HN
linearization
0-th order
- 0-th order independent from PSs fluctuations (i.e. HN) - 0-th order quantum light noise (shot-noise in the actual Holometer)
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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The model
Phases covariance uncertainty
«Overlapping» «Separated»
Quantum EV pdf of phase fluctuations due to HN
•
•
linearization
0-th order
- 0-th order independent from PSs fluctuations (i.e. HN) - 0-th order quantum light noise (shot-noise in the actual Holometer)
0-th order contribution to PSs covariance unc.:
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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The model
Phases covariance uncertainty
«Overlapping» «Separated»
Quantum EV pdf of phase fluctuations due to HN
•
•
linearization
0-th order
- 0-th order independent from PSs fluctuations (i.e. HN) - 0-th order quantum light noise (shot-noise in the actual Holometer)
0-th order contribution to PSs covariance unc.:
Exploiting quantum light to beat the “shot-noise” level! PRL 110, 213601 (2013)
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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Squeezed light in Coupled Interferometers
Squeezed light in gravitational wave detectors!!
A sub-shot-noise PS measurement in a single interferometer (e.g. gravitational
wave detector) was suggested exploiting squeezed light Caves, PRD 23, 1693 (1981)
Kimble et al., PRD 65, 022002 (2001)
...
and recently realized at Ligo 600 R. Schnabel et al., Nature Commun. 1, 121 (2010)
Ligo, Nature Phys. 7, 962 (2011)
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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Squeezed light in Coupled Interferometers
Squeezed light in gravitational wave detectors!!
A sub-shot-noise PS measurement in a single interferometer (e.g. gravitational
wave detector) was suggested exploiting squeezed light Caves, PRD 23, 1693 (1981)
Kimble et al., PRD 65, 022002 (2001)
...
and recently realized at Ligo 600 R. Schnabel et al., Nature Commun. 1, 121 (2010)
Ligo, Nature Phys. 7, 962 (2011)
Does squeezed light help also in the case of the Holometer?
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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Squeezed light in Coupled Interferometers
Squeezed light in gravitational wave detectors!!
A sub-shot-noise PS measurement in a single interferometer (e.g. gravitational
wave detector) was suggested exploiting squeezed light Caves, PRD 23, 1693 (1981)
Kimble et al., PRD 65, 022002 (2001)
...
and recently realized at Ligo 600 R. Schnabel et al., Nature Commun. 1, 121 (2010)
Ligo, Nature Phys. 7, 962 (2011)
Does squeezed light help also in the case of the Holometer?
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
Before discussing it a quick overview of “relevant” Quantum Optics concepts
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A glance at a Quantum Optics textbook
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
Quantization of the Electromagnetic Field
Classical Quantum
Unitless Coefficients Quantum Operators
Energy of a single mode quantum EM field
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A glance at a Quantum Optics textbook
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
Quantization of the Electromagnetic Field
Classical Quantum
Unitless Coefficients Quantum Operators
Energy of a single mode quantum EM field
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A glance at a Quantum Optics textbook
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
Quadrature Operators
“Amplitude” or “Position” “Phase” or “Momentum”
Heisenberg’s Unc. Relation
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A glance at a Quantum Optics textbook
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
Coherent States
Coherent State: eigenstate of the annihilation operator
Displacement operator:
Mean photon number:
Photon number statistics:
Quadrature operators
X1
X2
Re[a]
Im[a]
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A glance at a Quantum Optics textbook
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
Squeezed States Hamiltonian of a degenerate parametric process:
(Unitary) “Squeeze” Operator :
Squeezed Vacuum obtained with an OPO operating under threshold
Squeezed Vacuum:
X1
X2
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A glance at a Quantum Optics textbook
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
How to measure Quadratures
- a
b
c d
LO:
BS transformation:
50:50 BS:
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• in a-port, in b-port
A glance at a Quantum Optics textbook
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
Phase measurement in an interferometer
The input-output relations of the mode operators of an interferometer are the same of a BS with T (given by the the phase 𝝓𝒑)
Shot-Noise Limit
• in a-port, in b-port ( )
Below the Shot-Noise Limit
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Squeezed light in Coupled Interferometers
Squeezed light in gravitational wave detectors!!
A sub-shot-noise PS measurement in a single interferometer (e.g. gravitational
wave detector) was suggested exploiting squeezed light Caves, PRD 23, 1693 (1981)
Kimble et al., PRD 65, 022002 (2001)
...
and recently realized at Ligo 600 R. Schnabel et al., Nature Commun. 1, 121 (2010)
Ligo, Nature Phys. 7, 962 (2011)
Does squeezed light help also in the case of the Holometer?
Squeezed light in the a’s ports:
Coherent light in the b’s ports:
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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Squeezed light in Coupled Interferometers
Does squeezed light help also in the case of the Holometer?
is the covariance of photon # differences
0-th order contribution to PSs covariance unc.:
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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Squeezed light in Coupled Interferometers
Does squeezed light help also in the case of the Holometer?
: mean # photons coherent light : mean # photons squeezed light
is the covariance of photon # differences
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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Squeezed light in Coupled Interferometers
Does squeezed light help also in the case of the Holometer?
i.e. better than the CL case
: mean # photons coherent light : mean # photons squeezed light
is the covariance of photon # differences
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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Squeezed light in Coupled Interferometers
Does squeezed light help also in the case of the Holometer?
i.e. better than the CL case
In the presence of losses :
: mean # photons coherent light : mean # photons squeezed light
is the covariance of photon # differences
PRL 110, 213601 (2013)
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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A “further” glance at a Quantum Optics textbook
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
The “Dark-Port” configuration What is done in practice in phase measurement (single interferometer)
- a
b
c
d
or
a
b
f
g
or
-
l
c d
LO:
T=1/2
f = p/2
T=1
f = 0
Shot-Noise Limit
Below the Shot-Noise Limit
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A “further” glance at a Quantum Optics textbook
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
Twin-Beam state (or Two-mode squeezed vacuum) Hamiltonian of a non-degenerate parametric process:
(Unitary) Two-mode “Squeeze” Operator :
TWB shows perfect correlation in the photon number, i.e TWB is an eigenstate of the photon number difference
Twin Beam state:
Does Q-correlated (Entangled) light help in coupled interferometers?
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Twin-Beam light in Coupled Interferometers
Does quantum correlated light help in coupled interferometers? Twin-Beam light in the a’s ports:
Coherent light in the b’s ports:
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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Twin-Beam light in Coupled Interferometers
Does quantum correlated light help in coupled interferometers?
Twin-Beam light in the a’s ports:
Coherent light in the b’s ports:
is the fluctuations of the photon # difference in c’s ports
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
![Page 41: Probing Quantum Geometry with Coupled Interferometers and ...hep.itp.tuwien.ac.at › ~miw › bzell2014 › talks › BZell2014_Degiovanni… · • Physics laws become non-consistent](https://reader033.vdocument.in/reader033/viewer/2022060321/5f0d36e57e708231d4393c69/html5/thumbnails/41.jpg)
Twin-Beam light in Coupled Interferometers
Does quantum correlated light help in coupled interferometers?
Twin-Beam light in the a’s ports:
Coherent light in the b’s ports:
is the fluctuations of the photon # difference in c’s ports
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
![Page 42: Probing Quantum Geometry with Coupled Interferometers and ...hep.itp.tuwien.ac.at › ~miw › bzell2014 › talks › BZell2014_Degiovanni… · • Physics laws become non-consistent](https://reader033.vdocument.in/reader033/viewer/2022060321/5f0d36e57e708231d4393c69/html5/thumbnails/42.jpg)
Twin-Beam light in Coupled Interferometers
Does quantum correlated light help in coupled interferometers?
Twin-Beam light in the a’s ports:
Coherent light in the b’s ports:
is the fluctuations of the photon # difference in c’s ports
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
![Page 43: Probing Quantum Geometry with Coupled Interferometers and ...hep.itp.tuwien.ac.at › ~miw › bzell2014 › talks › BZell2014_Degiovanni… · • Physics laws become non-consistent](https://reader033.vdocument.in/reader033/viewer/2022060321/5f0d36e57e708231d4393c69/html5/thumbnails/43.jpg)
Twin-Beam light in Coupled Interferometers
Does quantum correlated light help in coupled interferometers?
Twin-Beam light in the a’s ports:
Coherent light in the b’s ports:
is the fluctuations of the photon # difference in c’s ports
In the presence of losses :
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
![Page 44: Probing Quantum Geometry with Coupled Interferometers and ...hep.itp.tuwien.ac.at › ~miw › bzell2014 › talks › BZell2014_Degiovanni… · • Physics laws become non-consistent](https://reader033.vdocument.in/reader033/viewer/2022060321/5f0d36e57e708231d4393c69/html5/thumbnails/44.jpg)
Twin-Beam light in Coupled Interferometers
Does quantum correlated light help in coupled interferometers?
Twin-Beam light in the a’s ports:
Coherent light in the b’s ports:
is the fluctuations of the photon # difference in c’s ports
In the presence of losses :
TWB is still advantageous in the presence of weak quantum light!!!
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
Squeezed light
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Twin-Beam light in Coupled Interferometers
Does quantum correlated light help in coupled interferometers?
Twin-Beam light in the a’s ports:
Coherent light in the b’s ports:
is the fluctuations of the photon # difference in c’s ports
In the presence of losses :
PRL 110, 213601 (2013)
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
Squeezed light Squeezed light
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Quantum Enhancement Uncertainty
𝜆 = 0.5
𝜇 = 1023
𝑀𝑒𝑎𝑠. 𝑡𝑖𝑚𝑒 = 10−3 𝑠
𝑊𝑎𝑣𝑒𝑙𝑒𝑛𝑔𝑡ℎ = 600 𝑛𝑚
𝑀𝑖𝑟𝑟𝑜𝑟 𝑚𝑎𝑠𝑠 = 102𝐾𝑔
≈ 0 (𝜂 ≈ 1)
Quantum light in Coupled Interferometers
Fluctuations of the # of photons inside the interferometers arms induce phase fluctuations due to mirror recoil (Radiation Pressure Noise). dfRP =
photons momentum
> 107 W
For shorter measurement time 10−6 𝑠 (HN to be detected in the MHz region) > 1013 W
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
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“Strong” quantum light regime:
Results with Single Mode Squeezing
1021 1022 1023 1024 1025
0.050.10
0.501.00
5.00
CL= Shot Noise Level
SQ
TWB U/U
CL
(0)
𝜇 = # 𝑜𝑓 𝑐𝑜ℎ. 𝑝ℎ𝑜𝑡𝑜𝑛𝑠
𝜆 = 10 𝜂 = 0,98
𝑀𝑒𝑎𝑠. 𝑡𝑖𝑚𝑒 = 10−3 𝑠
𝑀𝑖𝑟𝑟𝑜𝑟 𝑚𝑎𝑠𝑠 = 102𝐾𝑔
𝑊𝑎𝑣𝑒𝑙𝑒𝑛𝑔𝑡ℎ = 600 𝑛𝑚
Radiation pressure (RP) noise is negligible for reasonable value of
the optical power. It starts to appear at 𝑃 > 107 𝑊
Ph
Ph
Ph+RP Ph+RP
47 Quantum light in Coupled Interferometers
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
![Page 48: Probing Quantum Geometry with Coupled Interferometers and ...hep.itp.tuwien.ac.at › ~miw › bzell2014 › talks › BZell2014_Degiovanni… · • Physics laws become non-consistent](https://reader033.vdocument.in/reader033/viewer/2022060321/5f0d36e57e708231d4393c69/html5/thumbnails/48.jpg)
Results with Single Mode Squeezing 48 The TAKE-AWAY
• HN is due to the “possible” Quantum Geometric structure of the Space-Time at the Planck-length scale
• HN may have “observable” effect at the macroscopic scale Holometer (2
coupled interferometers)
• Quantum light enhance the sensitivity of the Holometer below the “Shot-Noise”
limit
• Squeezed light provides an enhancement of the order of the mean number
of photon of the squeezed light
• Twin-Beam provides a complete suppression of the shot-noise contribution
(0!!!!)
• Losses (effectively) affect this enhancement
• Radiation pressure is not an problem (for affordable light power level)
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
![Page 49: Probing Quantum Geometry with Coupled Interferometers and ...hep.itp.tuwien.ac.at › ~miw › bzell2014 › talks › BZell2014_Degiovanni… · • Physics laws become non-consistent](https://reader033.vdocument.in/reader033/viewer/2022060321/5f0d36e57e708231d4393c69/html5/thumbnails/49.jpg)
Results with Single Mode Squeezing 49 The TAKE-AWAY
• HN is due to the “possible” Quantum Geometric structure of the Space-Time at the Planck-length scale
• HN may have “observable” effect at the macroscopic scale Holometer (2
coupled interferometers)
• Quantum light enhance the sensitivity of the Holometer below the “Shot-Noise”
limit
• Squeezed light provides an enhancement of the order of the mean number
of photon of the squeezed light
• Twin-Beam provides a complete suppression of the shot-noise contribution
(0!!!!)
• Losses (effectively) affect this enhancement
• Radiation pressure is not an problem (for affordable light power level)
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
![Page 50: Probing Quantum Geometry with Coupled Interferometers and ...hep.itp.tuwien.ac.at › ~miw › bzell2014 › talks › BZell2014_Degiovanni… · • Physics laws become non-consistent](https://reader033.vdocument.in/reader033/viewer/2022060321/5f0d36e57e708231d4393c69/html5/thumbnails/50.jpg)
Results with Single Mode Squeezing 50 The TAKE-AWAY
• HN is due to the “possible” Quantum Geometric structure of the Space-Time at the Planck-length scale
• HN may have “observable” effect at the macroscopic scale Holometer (2
coupled interferometers)
• Quantum light enhance the sensitivity of the Holometer below the “Shot-Noise”
limit
• Squeezed light provides an enhancement of the order of the mean number
of photon of the squeezed light
• Twin-Beam provides a complete suppression of the shot-noise contribution
(0!!!!)
• Losses (effectively) affect this enhancement
• Radiation pressure is not an problem (for affordable light power level)
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
![Page 51: Probing Quantum Geometry with Coupled Interferometers and ...hep.itp.tuwien.ac.at › ~miw › bzell2014 › talks › BZell2014_Degiovanni… · • Physics laws become non-consistent](https://reader033.vdocument.in/reader033/viewer/2022060321/5f0d36e57e708231d4393c69/html5/thumbnails/51.jpg)
Results with Single Mode Squeezing 51 The TAKE-AWAY
• HN is due to the “possible” Quantum Geometric structure of the Space-Time at the Planck-length scale
• HN may have “observable” effect at the macroscopic scale Holometer (2
coupled interferometers)
• Quantum light enhance the sensitivity of the Holometer below the “Shot-Noise”
limit
• Squeezed light provides an enhancement of the order of the mean number
of photon of the squeezed light
• Twin-Beam provides a complete suppression of the shot-noise contribution
(0!!!!)
• Losses (effectively) affect this enhancement
• Radiation pressure is not an problem (for affordable light power level)
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
![Page 52: Probing Quantum Geometry with Coupled Interferometers and ...hep.itp.tuwien.ac.at › ~miw › bzell2014 › talks › BZell2014_Degiovanni… · • Physics laws become non-consistent](https://reader033.vdocument.in/reader033/viewer/2022060321/5f0d36e57e708231d4393c69/html5/thumbnails/52.jpg)
Results with Single Mode Squeezing 52 The TAKE-AWAY
• HN is due to the “possible” Quantum Geometric structure of the Space-Time at the Planck-length scale
• HN may have “observable” effect at the macroscopic scale Holometer (2
coupled interferometers)
• Quantum light enhance the sensitivity of the Holometer below the “Shot-Noise”
limit
• Squeezed light provides an enhancement of the order of the mean number
of photon of the squeezed light
• Twin-Beam provides a complete suppression of the shot-noise contribution
(0!!!!)
• Losses (effectively) affect this enhancement
• Radiation pressure is not an problem (for affordable light power level)
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
![Page 53: Probing Quantum Geometry with Coupled Interferometers and ...hep.itp.tuwien.ac.at › ~miw › bzell2014 › talks › BZell2014_Degiovanni… · • Physics laws become non-consistent](https://reader033.vdocument.in/reader033/viewer/2022060321/5f0d36e57e708231d4393c69/html5/thumbnails/53.jpg)
Results with Single Mode Squeezing 53 The TAKE-AWAY
• HN is due to the “possible” Quantum Geometric structure of the Space-Time at the Planck-length scale
• HN may have “observable” effect at the macroscopic scale Holometer (2
coupled interferometers)
• Quantum light enhance the sensitivity of the Holometer below the “Shot-Noise”
limit
• Squeezed light provides an enhancement of the order of the mean number
of photon of the squeezed light
• Twin-Beam provides a complete suppression of the shot-noise contribution
(0!!!!)
• Losses (effectively) affect this enhancement
• Radiation pressure is not an problem (for affordable light power level)
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
![Page 54: Probing Quantum Geometry with Coupled Interferometers and ...hep.itp.tuwien.ac.at › ~miw › bzell2014 › talks › BZell2014_Degiovanni… · • Physics laws become non-consistent](https://reader033.vdocument.in/reader033/viewer/2022060321/5f0d36e57e708231d4393c69/html5/thumbnails/54.jpg)
Results with Single Mode Squeezing 54 The TAKE-AWAY
• HN is due to the “possible” Quantum Geometric structure of the Space-Time at the Planck-length scale
• HN may have “observable” effect at the macroscopic scale Holometer (2
coupled interferometers)
• Quantum light enhance the sensitivity of the Holometer below the “Shot-Noise”
limit
• Squeezed light provides an enhancement of the order of the mean number
of photon of the squeezed light
• Twin-Beam provides a complete suppression of the shot-noise contribution
(0!!!!)
• Losses (effectively) affect this enhancement
• Radiation pressure is not an problem (for affordable light power level)
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
![Page 55: Probing Quantum Geometry with Coupled Interferometers and ...hep.itp.tuwien.ac.at › ~miw › bzell2014 › talks › BZell2014_Degiovanni… · • Physics laws become non-consistent](https://reader033.vdocument.in/reader033/viewer/2022060321/5f0d36e57e708231d4393c69/html5/thumbnails/55.jpg)
• HN is due to the “possible” Quantum Geometric structure of the Space-Time at the Planck-length scale
• HN may have “observable” effect at the macroscopic scale Holometer (2
coupled interferometers)
• Quantum light enhance the sensitivity of the Holometer below the “Shot-Noise”
limit
• Squeezed light provides an enhancement of the order of the mean number
of photon of the squeezed light
• Twin-Beam provides a complete suppression of the shot-noise contribution
(0!!!!)
• Losses (effectively) affect this enhancement
• Radiation pressure is not an problem (for affordable light power level)
Results with Single Mode Squeezing 55 The TAKE-AWAY
Bayrischzell Workhop 2014, Quantized geometry and physics, [May 23-26]
![Page 56: Probing Quantum Geometry with Coupled Interferometers and ...hep.itp.tuwien.ac.at › ~miw › bzell2014 › talks › BZell2014_Degiovanni… · • Physics laws become non-consistent](https://reader033.vdocument.in/reader033/viewer/2022060321/5f0d36e57e708231d4393c69/html5/thumbnails/56.jpg)
Results with Single Mode Squeezing 56 The TAKE-AWAY
• HN is due to the “possible” Quantum Geometric structure of the Space-Time at the Planck-length scale
• HN may have “observable” effect at the macroscopic scale Holometer (2 coupled interferometers)
• Quantum light enhance the sensitivity of the Holometer below the “Shot-Noise” limit
• Squeezed light provides an enhancement of the order of the mean number of photon of the squeezed light
• Twin-Beam provides a complete suppression of the shot-noise contribution (0!!!!)
• Losses (effectively) affect this enhancement
• Radiation pressure is not an problem (for affordable light power level)
Quantum 2014, VII workshop ad memoriam of Carlo Novero, [Turin, May 25-31]