Approaching attometer laser vibrometry

Rembe, Christian; Kadner, Lisa; Giesen, Moritz

doi:10.1063/1.4964625

Cited by 11 publications

(8 citation statements)

References 11 publications

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“…A mirror integrated into the microscope objective at a surface where no refraction appears makes possible multiple reflections of the measurement beam between specimen surface and the additional integrated mirror surface. In [7] we have shown recently by experimental results that we can achieve resolutions on a reflective surface below the shot-noise limit and we have demonstrated theoretic results, which predict resolutions below 1 f carefully adapted microscope-mirror reflectivity.…”

Section: Open-optical-resonator Interferometermentioning

confidence: 59%

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B5.3 - High-Resolution Laser-Vibrometer Microscopy

Rembe¹,

Kowarsch²

2017

Proceedings Sensor 2017

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Section: Open-optical-resonator Interferometermentioning

confidence: 59%

“…Multiplereflection interferometry provides such higher sensitivity as the field of cavity optomechanics demonstrates [6]. A first realization of this idea [7] demonstrates already resolutions below the shot-noise limit of the conventional system.…”

Section: Introductionmentioning

confidence: 99%

B5.3 - High-Resolution Laser-Vibrometer Microscopy

Rembe¹,

Kowarsch²

2017

Proceedings Sensor 2017

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“…Optical interferometric techniques provide unprecedented displacement resolution [1][2][3][4][5][6][7][8][9][10][11]. In general, optical interferometric approaches are non-invasive and contactless and thus ideal for measuring mechanical strain without need for special sample preparation related to the detection.…”

Section: Introductionmentioning

confidence: 99%

Compact fiber optical interferometer technique to measure picometer displacements in biological piezoelectric materials

Liu¹,

Yaraghi²,

Xu³

et al. 2019

Meas. Sci. Technol.

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A simple and robust fiber optical interferometer was developed to non-invasively study the weak piezoelectric effect from thin samples. A biological sample from inter-molt dactyl clubs obtained from the mantis shrimp was used as the test sample. The non-contact technique can measure displacements better than 0.5 picometer for samples subjected to large electric fields. The approach utilizes the phase dependent detection of an oscillating cavity at different frequencies from 0.5 kHz to 2.0 kHz. The piezoelectric constant of the biological samples was calculated from the optical interference fringes and determined to be in the range of 0.3-0.5 pm/V. The noise of 20 fm/Hz 0.5 in the setup is primarily due to thermally associated strains from current flow to the sample electrodes during the measurement.

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“…Quantum technologies and in particular quantum and quantum-enhanced sensing [1] have high-impact near-term applications that include microscopy [2,3], vibrometry [4], ranging [5], astronomy [6], and medical imaging [7]. Moreover, they have contributed to fundamental discoveries such as gravitational wave detection [8].…”

Section: Introductionmentioning

confidence: 99%

Covert sensing using floodlight illumination

Gagatsos¹,

Bash²,

Datta³

et al. 2019

Conference on Lasers and Electro-Optics

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We propose a scheme for covert active sensing using floodlight illumination from a terahertz-bandwidth amplified spontaneous emission (ASE) source and heterodyne detection. We evaluate the quantum-estimationtheoretic performance limit of covert sensing, wherein a transmitter's attempt to sense a target phase is kept undetectable to a quantum-equipped passive adversary, by hiding the signal photons under the thermal noise floor. Despite the quantum state of each mode of the ASE source being mixed (thermal), and hence inferior compared to the pure coherent state of a laser mode, the thousand-times-higher optical bandwidth of the ASE source results in achieving a substantially superior performance compared to a narrow-band laser source by allowing the probe light to be spread over many more orthogonal temporal modes within a given integration time. Even though our analysis is restricted to single-mode phase sensing, this system could be applicable or extendible for various practical optical sensing applications.

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Approaching attometer laser vibrometry

Cited by 11 publications

References 11 publications

B5.3 - High-Resolution Laser-Vibrometer Microscopy

B5.3 - High-Resolution Laser-Vibrometer Microscopy

Compact fiber optical interferometer technique to measure picometer displacements in biological piezoelectric materials

Covert sensing using floodlight illumination

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