Institute of Optics, Information and Photonics, University of Erlangen-Nürnberg, Staudtstrasse 7/B2, Erlangen, 91058, Germany

This is definitely the case for high-gain parametric down-conversion (PDC), widely used for the generation of bright squeezed vacuum3,4,5,6,7. In particular, twin-beam bright squeezed vacuum has perfect photon-number correlations between two beams, each of which taken separately has a very broad (thermal) photon-number distribution. This non-classical state of light has interesting applications in quantum imaging3,8 and sensing9, phase super-resolution10, macroscopic entanglement11, enhanced nonlinear interactions and many other fields. In high-gain PDC, down-converted radiation is exponentially amplified provided that it overlaps in space and time with the pump pulse. This makes certain angles and frequencies of emission distinguished and the emission into the corresponding modes enhanced.

As seen in Fig. 2b, the angular divergence of both beams is very small. This is because amplification occurs within the angle a/L, where a is the pump beam waist and L is the crystal length. Because the pump divergence, λp/a, is on the same order of magnitude, the beams are nearly single-mode. This effect is similar to the generation of spatially single-mode PDC from two separated crystals12. Indeed, in experiment we measured the effective number of spatial modes m=1.4 at the maximal parametric gain G=15, corresponding to the pump power of 30 mW (Supplementary Fig. 1). This measurement relies on the dependence of the normalized second-order intensity correlation function on the number of modes, see the Methods section.

Mosley, P. J. et al. Heralded generation of ultrafast single photons in pure quantum states. Phys. Rev. Lett. 100, 133601 (2008).

Grice, W. P., U’Ren, A. B. & Walmsley, I. A. Eliminating frequency and space-time correlations in multiphoton states. Phys. Rev. A 64, 063815 (2001).

Jedrkiewicz, O. et al. Detection of sub-shot-noise spatial correlation in high-gain parametric down conversion. Phys. Rev. Lett. 93, 243601 (2004).

For tote covers, plastic film is not a good choice except for a temporary dust cover for the top of the tote. It’s not very durable for transporting or long-term storage.

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In periodically poled crystals or waveguides27, phase matching can be satisfied also in the collinear regime by a proper poling. Near resonance, one can have the pump group velocity very different from the signal/idler group velocity. This could provide additional possibilities for engineering the spectrum.

In our experiment, we focused the Gaussian pump beam (frequency-tripled YAG:Nd laser with the wavelength 355 nm, pulse duration 18 ps and repetition rate 1 kHz) into a 5-mm beta barium borate (BBO) crystal by means of a lens with the focal length 500 mm, which resulted in a waist with full width at half maximum of 60 μm. The crystal was oriented to provide frequency-degenerate collinear type-I phase matching (which occurs at the crystal orientation 32.97° to the optic axis). After the crystal, the pump was cut off by a dichroic mirror. The angular spectra of PDC were first captured using a digital photographic camera (Fig. 1b). We see beamlike strongly enhanced emission in the green spectral range. The colour is modified because of the camera saturation, which is clear from a snapshot with an OD2 neutral-density filter (Fig. 1c). The green beam is only one of the ‘twins’; moreover, it is the other beam that propagates along the Poynting vector (4° to the collinear direction inside the crystal), but it belongs to the infrared range and is therefore not visible (Fig. 2a).

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Lamas-Linares, A., Howell, J. C. & Bouwmeester, D. Stimulated emission of polarization-entangled photons. Nature 412, 887–890 (2001).

where λn are the Schmidt eigenvalues. We assumed here the absence of losses inside the crystal (which do not exceed 0.1%) and the undepleted pump approximation, which indeed holds true in our experiment. Further, we write time-depending differential equations for the new operators in the Heisenberg representation, and find their solutions given by the Bogolyubov transformations (see Supplementary Methods). The equations for the plane-wave operators can be obtained and solved analytically in the Heisenberg picture using the expression for the Schmidt operators. Then the mean photon number in the signal beam can be calculated by averaging over the vacuum state, which yields

Iskhakov, T. Sh., Chekhova, M. V. & Leuchs, G. Generation and direct detection of broadband mesoscopic polarization-squeezed vacuum. Phys. Rev. Lett. 102, 183602 (2009).

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PDC was pumped by 0.9 ps pulses of frequency-doubled Mai Tai/Spitfire radiation with the repetition rate 5 kHz and the energy per pulse up to 0.1 mJ. To demonstrate the temporal walk-off, we reduced the spatial walk-off by focusing the pump beam only in the plane orthogonal to the principal one by means of cylindrical optics. In the principal plane, the beam full width at half maximum was 3.4 mm but in the orthogonal plane, 130 μ or 680 μ depending on the configuration. The spectra obtained from a single 5-mm crystal were compared with the ones of four 5-mm crystals placed one after another at a minimal distance of 3 mm (Supplementary Fig. 3). The effect is easily observable on a screen (Fig. 3). For PDC generated by 20 mm of BBO, there is huge amplification within a relatively narrow spectral range (Fig. 3b–d), while in the case of a 5-mm crystal the spectrum is more uniform over frequency (Fig. 3e–g). The angle at which amplification occurs is different depending on the orientation; this clearly shows that it is not related to the spatial walk-off.

Walk-off effects are caused by the difference between the velocities and directions of energy and phase propagation. In particular, transverse (spatial) walk-off is due to the fact that the Poynting vector is, in the general case, non-collinear to the wavevector. Similarly, longitudinal (temporal) walk-off appears because the energy of a pulse travels at a different speed than its phase. Since in nonlinear optical processes it is phase matching that determines the frequency and angular spectrum, interacting pulses are, in the general case, group mismatched and separate in both space and time in the course of propagation. This limits the length of nonlinear interactions for short pulses and focused beams1,2.

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Gale, G. M., Cavallari, M., Driscoll, T. J. & Hache, F. Sub-20-fs tunable pulses in the visible from an 82-MHz optical parametric oscillator. Opt. Lett. 20, 1562–1564 (1995).

In our experiment, we used type-II PDC in a BBO crystal pumped at 400 nm. Tuning curves of the ‘ordinary’ beam for positive angles are shown in Fig. 3a for the orientations 31°, 34.5° and 37.5°. Green arrows mark the positions of group-velocity matching. One should expect considerable amplification of emission at these wavelengths in the case of a long crystal and high gain.

Eckstein, A., Christ, A., Mosley, P. J. & Silberhorn, C. Highly efficient single-pass source of pulsed single-mode twin beams of light. Phys. Rev. Lett. 106, 013603 (2011).

At other orientations of the crystal, the emission at the degenerate wavelength is much weaker, as shown in Fig. 2c, which presents one-dimensional cuts of the obtained two-dimensional (2D) spectra (Supplementary Fig. 2). In agreement with the theory (Fig. 2d), the PDC peak observed in the walk-off direction exceeds the near-collinear emission by more than two orders of magnitude.

Wooden barrels have been around for over two thousand years. However, they have limitations on the types of materials they can hold. Their most significant drawback is the difficulty in handling. With modern palletization and containerization, there is something better. It’s the IBC or Intermediate Bulk Container. Olivier J. L. D’Hollander invented the first IBC tote for Dow Corning S.A. in 1992 and revolutionized the shipping industry.

Sharapova, P. R., Pérez, A. M., Tikhonova, O. V. & Chekhova, M. V. Schmidt modes in the angular spectrum of bright squeezed vacuum. Phys. Rev. A 91, 043816 (2015).

To demonstrate both twin beams emitted at the degenerate wavelength, we installed a bandpass filter (bandwidth 10 nm centred at 710 nm) after the crystal and tilted the crystal to the orientation 34.9° (see Supplementary Fig. 1). The resulting angular distribution was recorded by a charge-coupled device camera (Fig. 2b). One can hardly see the whole ring of emission at 710 nm (in fact it is seen with a much larger exposure time) but there is a strong peak in the direction corresponding to the walk-off angle in the crystal, as well as in the direction symmetrical with respect to the pump.

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Here we show that if one of the twin beams is emitted along the pump Poynting vector or its group velocity matches that of the pump, the generation of both twin beams can be enhanced by more than two orders of magnitude. Because it is enhanced only in certain directions and at certain frequencies, considerable narrowing of the angular and frequency spectrum is observed. In particular, the angular spectrum of each twin beam contains less than two modes.

Bondani, M. et al. Sub-shot-noise photon-number correlation in a mesoscopic twin beam of light. Phys. Rev. A 76, 013833 (2007).

For the quantitative characterization of the effect, we recorded the frequency spectra at different angles, with the crystals oriented at 37.5°. According to the tuning curve (Fig. 3a), each angle corresponds to a peak at a different wavelength. For PDC from 20 mm BBO, the peak at the group-velocity-matching wavelength 533.5 nm exceeds the one at 637.5 nm 250 times (Fig. 4). Because this difference is influenced by many frequency-dependent factors21,22, we also recorded spectra for a 5-mm crystal. Although the temporal walk-off is not negligible also in this case, the spectral distribution is much more uniform. Note that in both cases, the parametric gain was made the same (G=8.6) at the wavelength 637.5 nm, by stronger focusing the pump in the case of a 5-mm crystal. The focusing was performed by a cylindrical lens (focal length 500 mm) or a cylindrical telescope (30:2.5) to avoid the transverse walk-off.

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Twin BeamGirafarig

In conclusion, we have shown that, in contrast to the common opinion, spatial and temporal walk-off is not necessarily degrading the generation of twin beams. When properly used, it can lead to the generation of bright, tunable and diffraction-limited twin-beam radiation. So far we have demonstrated the amplification of down-converted radiation by more than two orders of magnitude under the condition that the signal or idler pulses propagate in the same direction or with the same velocity as the pump pulse energy. More dramatic amplification can be expected for PDC or four-wave mixing in long nonlinear media (fibres, waveguides) or resonators.

Fedorov, M. V. et al. Anisotropically and high entanglement of biphoton states generated in spontaneous parametric down-conversion. Phys. Rev. Lett. 99, 163901 (2007).

Shelby Thompson is the head of standard product sales for Powerblanket. He has a distinguished military career, having served in both Afghanistan and Iraq. In his time in the Marines, Shelby acquired an impressive skillset that he now uses in his current role. When he's not working, Shelby loves spending time outdoors with his wife, son, and daughter. He is also a semi-keen hunter, fair weather fisherman, and shooter. Unfortunately, Shelby also has something of an unlucky streak when it comes to Fantasy Football at the company.

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Oxford cloth is a shiny, lightweight nylon fabric. It is durable yet weighs only 170 grams per square meter. We find this tough material in backpacks, tents, and sail covers on sailboats.

Twin Beamvs Psychic

Walk-off effects, originating from the difference between the group and phase velocities, limit the efficiency of nonlinear optical interactions. While transverse walk-off can be eliminated by proper medium engineering, longitudinal walk-off is harder to avoid. In particular, ultrafast twin-beam generation via pulsed parametric down-conversion and four-wave mixing is only possible in short crystals or fibres. Here we show that in high-gain parametric down-conversion, one can overcome the destructive role of both effects and even turn them into useful tools for shaping the emission. In our experiment, one of the twin beams is emitted along the pump Poynting vector or its group velocity matches that of the pump. The result is markedly enhanced generation of both twin beams, with the simultaneous narrowing of angular and frequency spectrum. The effect will enable efficient generation of ultrafast twin photons and beams in cavities, waveguides and whispering-gallery mode resonators.

, and similarly for the idler beam. The parametric gain measured in experiment is . Thus, the total intensity distribution results from incoherent contributions of Schmidt modes with new weights that differ dramatically from the initial Schmidt eigenvalues λn and strongly depend on the parametric gain. The renormalized new weights of different Schmidt modes are

The highest gain is achieved for emission along the pump Poynting vector, which inside the crystal is non-collinear to the wavevector (a). The optic axis direction is schematically shown on top of the crystal. Snapshots with a photographic camera (b–f) show the spectra of high-gain PDC at different crystal orientations: 32.97° (b,c), 33.4° (d), 33.7° (e) and 34° (f). The angular scale is shown in panel b; the grid is the same for all panels. Additional stripes in d,e are due to the reflections in the crystal. Emission at the walk-off angle and in the phase-matched direction is enhanced. This occurs, at different crystal orientations, for different colours (d–f). A snapshot with a neutral-density filter (c) shows colours without the saturation.

IsTwin BeamA good move

Brida, G. et al. Measurement of sub-shot-noise spatial correlations without background subtraction. Phys. Rev. Lett. 102, 213602 (2009).

Agarwal, G. S. et al. Quantum states of light produced by a high-gain optical parametric amplifier for use in quantum lithography. J. Opt. Soc. Am. B 24, 270–274 (2007).

It comes in different densities such as 210d, 300d, 420d, and 600d. The higher the number, the thicker the threads and denser the material. “D” is an abbreviation for Denier, a unit of thread density or yarn.

By tilting the crystal, one can change the phase matching, so that the beamlike emission is observed in other spectral ranges (Fig. 1d–f). As the wavelength of the enhanced beam approaches the visible range, both left and right parts of the ring become pronounced (Fig. 1f).

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This effect can be especially useful for generating twin beams in cavities23 and whispering-gallery mode resonators24 where, due to the large quality factor, nonlinear interaction occurs on a very large distance. This requires pump beams with large coherence length; however, if the group velocity of down-converted radiation at a certain wavelength coincides with that of the pump, strong twin-beam generation can be realized even from short pulses. Under certain conditions, this radiation will be single mode.

“Build a better mousetrap, and the world will beat a path to your door.” Poet Ralph Waldo Emerson made that quote in the mid-1800s when wooden barrels were the primary storage system. But what about building a better storage container?

Farigiraf

While spatial walk-off can be, in principle, eliminated by using non-critical phase-matching, double-crystal configuration15,16 or periodically poled materials, temporal walk-off is inevitable whenever PDC or four-wave mixing is pumped by ultrashort pulses. Owing to the group-velocity difference between the pump and the twin-beam radiation, the pump pulse is delayed from the signal and idler pulses in the course of propagation through the nonlinear material, and only short crystals17 or fibres18,19 can be used for coherent generation of twin beams. Double-pass schemes20 allow one to increase the interaction length but only twice. For instance, in the common case of collinear frequency-degenerate type-I PDC generated in a BBO crystal from the frequency-doubled Ti-sapphire laser (400 nm), a 180 fs delay emerges in a 1 mm crystal. However, at some other wavelength of the signal radiation, its group velocity can be equal to that of the pump. The phase matching can then be fulfilled by using non-collinear emission. The same situation can be realized for type-II PDC. Note that only one pulse, signal or idler, has to propagate together with the pump pulse. Its twin will be amplified as well, similarly to the spatial walk-off case. Hence, giant amplification of both twin beams should be expected.

We acknowledge the financial support of the European Union under project BRISQ2 (FP7-ICT, grant agreement no. 308803) and of the Russian Foundation for Basic Research, grants 14-02-31030, 14-02-00389 and 14-02-31084. P.R.Sh. acknowledges the financial support of the ‘Dynasty’ foundation.

Frequency-angular spectra of type-I PDC from 355 nm pump in a 5-mm BBO crystal (a) show that at orientation 32.97° (as in Fig. 1b,c), only the infrared beam (white dot) propagates along the Poynting vector (green dashed line), but its twin is in the green spectral range (green dot). At orientation 33.7°, the enhanced twin beam is at wavelength 590 nm (yellow dot and Fig. 1e). At orientation 34.9°, the emission at the degenerate wavelength 710 nm is along the walk-off (red dots), and the 2D intensity distribution obtained by a charge-coupled device camera (b) shows hugely enhanced low-divergence twin beams. The rest of the PDC ring is faint and not seen in the linear scale. At other orientations, emission at 710 nm is much weaker, which is shown by logarithmic-scale one-dimensional angular intensity distributions measured (c) and calculated (d) for orientations 33° (red), 34° (green), 34.9° (blue) and 36° (magenta). Slight angular displacement of the right-hand experimental peaks is caused by the large (up to 10°) tilt of the crystal.

The effect will have interesting consequences for low-gain PDC. Indeed, the condition of temporal walk-off compensation, in combination with a large crystal length, will provide the absence of frequency correlations for femtosecond-pulsed PDC25,26. At the same time, signal and idler photons will have very different spectral widths and, consequently, different pulse durations.

Note that at low-gain PDC no such beamlike emission can be observed, only asymmetry in the angular spectrum13. The effect at high gain is known and widely used in parametric amplification14 but, to the best of our knowledge, has been never observed in twin-beam generation. A very special feature of the current configuration is that high directionality of radiation is achieved without using a cavity, and that the wavelength of the enhanced radiation is tunable within a broad range. The idler beam can serve as a source of tunable broadband diffraction-limited infrared radiation, especially convenient because its copy is maintained in the visible-range signal beam.

Twin beamantenna

The number of spatial modes was determined in the following way. One of the twin beams was collected, using a lens with the focal length 30 mm, into the 20-μm input slit of a monochromator, with the collection efficiency exceeding 90%. The monochromator filtered a bandwidth of 0.1 nm, which led to the selection of 1.25 frequency modes. The output beam was collimated and sent into a Hanbury Brown–Twiss interferometer for measuring the normalized second-order correlation function g(2). The total number of frequency and angular modes m was found from the relation g(2)=1+1/m (ref. 12) and turned out to be m =1.75. Taking into account that 1.25 frequency modes were present, the number of angular modes was 1.4.

Tuning curves for the ordinary down-converted radiation are shown for positive angles for crystal orientations 31°, 34.5° and 37.5° (a). For each orientation, at some wavelength the group velocity of the ‘ordinary’ photon matches that of the pump (green arrows). The PDC ring at this wavelength is hugely enhanced if the crystal is long enough (we used four 5-mm BBO crystals stacked together). (b–d) Snapshots of the intensity distributions on a screen placed in the far field, with the angular scale and the crystal orientations the same as in panel a. For comparison, spectra of a single 5-mm crystal with the same orientations show much broader emission spectra (e–g).

When it comes to storing chemicals and industrial materials during cold weather, you have to make sure your products stay...

Like any plant, algae need light to grow. Powerblanket IBC tote covers provide total light and UV protection, prohibiting algae growth inside the totes. But that’s only one way they protect the contents.

Also called “PP,” this rugged, high-strength plastic fabric is weatherproof. It is mildew, insect, tear, and chemical resistant. However, it is typically white and does not filter out light or UV rays.

Wolfgramm, F. et al. Atom-resonant heralded single photons by interaction-free measurement. Phys. Rev. Lett. 106, 053602 (2011).

Frequency spectra of PDC are recorded at external angles 0.142, 0.139, 0.137, 0.133, 0.125 and 0.117 rad for one (dashed line) and four (solid line) BBO crystals of length 5 mm oriented at 37.5°. In 20 mm of BBO crystal, the emission at the group-matched wavelength 533.5 nm (shown by green arrow) is enhanced 250 times compared with the wavelength 637.5 nm, where there is no group-velocity matching. In a 5-mm crystal, the enhancement is not so dramatic.

Grangier, P. R., Slusher, E., Yurke, B. & La Porta, A. Squeezed-light–enhanced polarization interferometer. Phys. Rev. Lett. 59, 2153–2156 (1987).

A.M.P. and K.Yu.S. carried out the experimental work; A.M.P., K.Yu.S and M.V.C. contributed to the analysis of the data; P.R.Sh. and O.V.T. provided the theoretical background; M.V.C. and G.L. initiated and supervised the project; all authors discussed the results and contributed to the writing of the manuscript.

The frequency spectra were recorded by means of an Ocean Optics HR4000 spectrometer connected to a 400-μm multimode fibre placed at 87 cm from the crystals (Supplementary Fig. 3, Supplementary Methods).

This work is licensed under a Creative Commons Attribution 4.0 International License. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in the credit line; if the material is not included under the Creative Commons license, users will need to obtain permission from the license holder to reproduce the material. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/

Perez, A. et al. Compensation of anisotropy effects in a nonlinear crystal for squeezed vacuum generation. Laser Phys. Lett. 10, 125201–125206 (2013).

Brida, G., Genovese, M. & Ruo Berchera, I. Experimental realization of sub-shot-noise quantum imaging. Nat. Photonics 4, 227–230 (2010).

Pérez, A., Spasibko, K., Sharapova, P. et al. Giant narrowband twin-beam generation along the pump-energy propagation direction. Nat Commun 6, 7707 (2015). https://doi.org/10.1038/ncomms8707

Spasibko, K. Y., Iskhakov, T. Sh. & Chekhova, M. V. Spectral properties of high-gain parametric down-conversion. Opt. Express 20, 7507–7515 (2012).

For PDC in an anisotropic crystal, if the pump is polarized extraordinarily and the down-converted light ordinarily, the emission will be mainly along the pump Poynting vector (Fig. 1a) as well as along its matching direction. The latter is because every signal photon emitted in the walk-off direction has its idler counterpart, and vice versa. This leads to a high-intensity beamlike PDC.

Our model12,28 is based on the Bloch–Messiah reduction. Because the anisotropy manifests itself significantly only in the principal plane of the crystal, the Hamiltonian can be calculated using one Cartesian dimension16,28. By passing to collective photon creation operators corresponding to the Schmidt modes un(ϑs), vn(ϑi), where ϑs and ϑi are the signal and idler angles, respectively, inside the crystal, we diagonalize the Hamiltonian:

For recording the angular spectra, we placed an aspheric lens with the focal length f=26 mm and numerical aperture 0.5 at a distance about 3 cm from the crystal (Supplementary Fig. 1, Supplementary Methods) and a charge-coupled device camera into the focal plane of the lens. The 2D spatial intensity distributions recorded by the camera corresponded then to the angular distributions of PDC radiation, with the external (outside of the crystal) angle θ given by the coordinate x as θ=arctan(x/f). The relation between the internal angles ϑi,s and the external ones θi,s is given by Snell’s law, sinθi,s/sinϑi,s=ni,s, with ni,s being the refractive indices for the idler and signal radiation. The one-dimensional spectra were obtained as cross-sections of the 2D distributions.

Iskhakov, T. Sh., Agafonov, I. N., Chekhova, M. V. & Leuchs, G. Polarization-entangled light pulses of 105 photons. Phys. Rev. Lett. 109, 150502 (2012).

How to cite this article: Pérez, A. M. et al. Giant narrowband twin-beam generation along the pump-energy propagation direction. Nat. Commun. 6:7707 doi: 10.1038/ncomms8707 (2015).

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Twin BeamPixelmon

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