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Integrated Quantum Optics
Prof. Dr. Christine Silberhorn
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Integrated Quantum Optics in CLN and KTP

The idea of Integrated Quantum Optics using nonlinear optical waveguide substrates is to combine active optical elements such as frequency converters, electro- and acousto-optical devices with passive elements (directional couplers, tapers, beam splitters, junctions etc.). Of course a sophisticated device design will monolithically integrate a number of such functionalities within a single optical waveguide chip, a so called integrated optical circuit (IOC).

As an example Fig. 1 shows a simple device, which contains a parametric down- converter (periodically poled area) and a directional coupler (S-bend WDM) in order to separate the generated photons spatially. It also consists of high quality end-face coatings to improve the overall conversion efficiency and to block the pump light. Thus, this basic building block for quantum networks contains three functionalities [1].

Figure 1: Device with three functionalities

Waveguide sample preparation

Figure 2: Dicing saw for wafer cutting
Figure 3: Wet bench for cleaning and photochemical processes

Due to high substrate costs for LiNbO3 and especially KTP we do not apply a full wafer technology. For LiNbO3 we use commercial 4” diameter Z-cut wafers of congruent melting composition (CLN). For KTP we are using significantly smaller Z-cut wafers of flux-grown crystal quality. The wafers are cut into slices using an automatic dicing saw (Fig. 2). Within our cleanroom facilities the samples have to pass a three step cleaning procedure, where organic and inorganic pollutants are removed.

⇒ Fabrication of waveguides in CLN

⇒ Fabrication of waveguides in KTP

⇒ Periodic poling

⇒ Device specific endface preparation

References

 

  1. An Efficient Integrated Two-Color Source for Heralded Single Photons
    Stephan Krapick, Harald Herrmann, Viktor Quiring, Benjamin Brecht, Hubertus Suche, Christine Silberhorn
    [PDFNew J. Physics 15, 033010 (2013)]
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Prof. Dr. Christine Silberhorn

Integrated Quantum Optics

Lehrstuhlinhaberin

Christine Silberhorn
Phone:
+49 5251 60-5884
Fax:
+49 5251 60-5886
Office:
P8.3.10

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