C. Schubert scite author profile

We realize beam splitters and mirrors for atom waves by employing a sequence of light pulses rather than individual ones. In this way we can tailor atom interferometers with improved sensitivity and accuracy. We demonstrate our method of composite pulses by creating a symmetric matter-wave interferometer which combines the advantages of conventional Bragg- and Raman-type concepts. This feature leads to an interferometer with a high immunity to technical noise allowing us to devise a large-area Sagnac gyroscope yielding a phase shift of 6.5 rad due to the Earth's rotation. With this device we achieve a rotation rate precision of 120 nrad s(-1) Hz(-1/2) and determine the Earth's rotation rate with a relative uncertainty of 1.2%.

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Physical aspects of a-Si:H/c-Si hetero-junction solar cells

Schmidt

et al. 2007

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Corrigendum: STE-QUEST—test of the universality of free fall using cold atom interferometry (2014 Class. Quantum Grav . 31 115010)

Aguilera

Ahlers

Battelier

et al. 2014

Class. Quantum Grav.

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Advances in broad bandwidth light sources for ultrahigh resolution optical coherence tomography

et al. 2004

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Novel ultra-broad bandwidth light sources enabling unprecedented sub-2 microm axial resolution over the 400 nm-1700 nm wavelength range have been developed and evaluated with respect to their feasibility for clinical ultrahigh resolution optical coherence tomography (UHR OCT) applications. The state-of-the-art light sources described here include a compact Kerr lens mode locked Ti:sapphire laser (lambdaC = 785 nm, delta lambda = 260 nm, P(out) = 50 mW) and different nonlinear fibre-based light sources with spectral bandwidths (at full width at half maximum) up to 350 nm at lambdaC = 1130 nm and 470 nm at lambdaC = 1375 nm. In vitro UHR OCT imaging is demonstrated at multiple wavelengths in human cancer cells, animal ganglion cells as well as in neuropathologic and ophthalmic biopsies in order to compare and optimize UHR OCT image contrast, resolution and penetration depth.

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A compact dual atom interferometer gyroscope based on laser-cooled rubidium

et al. 2009

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We present a compact and transportable inertial sensor for precision sensing of rotations and accelerations. The sensor consists of a dual Mach-Zehnder-type atom interferometer operated with laser-cooled 87 Rb. Raman processes are employed to coherently manipulate the matter waves. We describe and characterize the experimental apparatus. A method for passing from a compact geometry to an extended interferometer with three independent atom-light interaction zones is proposed and investigated. The extended geometry will enhance the sensitivity by more than two orders of magnitude which is necessary to achieve sensitivities better than 10 −8 rad/s/ √ Hz.

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Narrow bandwidth interference filter-stabilized diode laser systems for the manipulation of neutral atoms

Gilowski¹,

Schubert²,

Zaiser³

et al. 2007

Optics Communications

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We present and investigate different external cavity diode laser (ECDL) configurations for the manipulation of neutral atoms, wavelength-stabilized by a narrow-band high transmission interference filter. A novel diode laser, providing high output power of more than 1 W, with a linewidth of less than 85 kHz, based on a self-seeded tapered amplifier chip has been developed. Additionally, we compare the optical and spectral properties of two laser systems based on common laser diodes, differing in their coating, as well as one, based on a distributed-feedback (DFB) diode. The linear cavity setup in all these systems combines a robust and compact design with a high wavelength tunability and an improved stability of the optical feedback compared to diode laser setups using diffraction gratings for wavelength discrimination.

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Matter-Wave Interferometry for Inertial Sensing and Tests of Fundamental Physics

Schlippert

Meiners

Rengelink

et al. 2020

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Very Long Baseline Atom Interferometry (VLBAI) corresponds to groundbased atomic matter-wave interferometry on large scales in space and time, letting the atomic wave functions interfere after free evolution times of several seconds or wave packet separation at the scale of meters. As inertial sensors, e.g., accelerometers, these devices take advantage of the quadratic scaling of the leading order phase shift with the free evolution time to enhance their sensitivity, giving rise to compelling experiments. With shot noise-limited instabilities better than 1 × 10 −9 m/s 2 at 1 s at the horizon, VLBAI may compete with state-of-the-art superconducting gravimeters, while providing absolute instead of relative measurements. When operated with several atomic states, isotopes, or species simultaneously, tests of the universality of free fall at a level of parts in 10 13 and beyond are in reach. Finally, the large spatial extent of the interferometer allows one to probe the limits of coherence at macroscopic scales as well as the interplay of quantum mechanics and gravity. We report on the status of the VLBAI facility, its key features, and future prospects in fundamental science.

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Two-beam irradiation chamber for in situ ion-implantation and RBS at temperatures from 15 K to 300 K

Breeger

Wendler

Trippensee

et al. 2001

Nuclear Instruments and Methods in Physics Research Section B:

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C. Schubert

Composite-Light-Pulse Technique for High-Precision Atom Interferometry

Physical aspects of a-Si:H/c-Si hetero-junction solar cells

Corrigendum: STE-QUEST—test of the universality of free fall using cold atom interferometry (2014 Class. Quantum Grav . 31 115010)

Advances in broad bandwidth light sources for ultrahigh resolution optical coherence tomography

A compact dual atom interferometer gyroscope based on laser-cooled rubidium

Narrow bandwidth interference filter-stabilized diode laser systems for the manipulation of neutral atoms

Matter-Wave Interferometry for Inertial Sensing and Tests of Fundamental Physics

Two-beam irradiation chamber for in situ ion-implantation and RBS at temperatures from 15 K to 300 K

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