2015
DOI: 10.1038/ncomms6976
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Demonstration of a low-frequency three-dimensional terahertz bullet with extreme brightness

Abstract: The brightness of a light source defines its applicability to nonlinear phenomena in science. Bright low-frequency terahertz (o5 THz) radiation confined to a diffraction-limited spot size is a present hurdle because of the broad bandwidth and long wavelengths associated with terahertz (THz) pulses and because of the lack of THz wavefront correctors. Here using a present-technology system, we employ a wavefront manipulation concept with focusing optimization leading to spatio-temporal confinement of THz energy … Show more

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Cited by 262 publications
(199 citation statements)
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“…The THz source used here is an example for an advanced, multi-octave-spanning THz source where the beam quality is generally challenged by spatial inhomogeneities. 10,22,23 Assuming a maximum frequency of 10 THz, the scale of inhomogeneity is expected to be more than 30 µm (due to diffraction limits) which is not smaller than the probe spot size. However, in terms of resolution, the THz imaging technology presently available hardly satisfies the experimental needs for characterizing a tightly focused THz beam 10 and does not give any information about the spatio-temporal evolution of the THz intensity profile.…”
Section: Resultsmentioning
confidence: 99%
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“…The THz source used here is an example for an advanced, multi-octave-spanning THz source where the beam quality is generally challenged by spatial inhomogeneities. 10,22,23 Assuming a maximum frequency of 10 THz, the scale of inhomogeneity is expected to be more than 30 µm (due to diffraction limits) which is not smaller than the probe spot size. However, in terms of resolution, the THz imaging technology presently available hardly satisfies the experimental needs for characterizing a tightly focused THz beam 10 and does not give any information about the spatio-temporal evolution of the THz intensity profile.…”
Section: Resultsmentioning
confidence: 99%
“…10,22,23 Assuming a maximum frequency of 10 THz, the scale of inhomogeneity is expected to be more than 30 µm (due to diffraction limits) which is not smaller than the probe spot size. However, in terms of resolution, the THz imaging technology presently available hardly satisfies the experimental needs for characterizing a tightly focused THz beam 10 and does not give any information about the spatio-temporal evolution of the THz intensity profile. In the following, we show that THz Kerr gating is a powerful tool for space-time resolved mapping of the THz intensity profile along the THz bullet.…”
Section: Resultsmentioning
confidence: 99%
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