Applications of Terahertz Spectroscopy in Biosystems

Plusquellic, David F.; Siegrist, K.; Heilweil, Edwin J.; Esentürk, Okan

doi:10.1002/cphc.200700332

Cited by 287 publications

(178 citation statements)

References 110 publications

(129 reference statements)

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“…These vibrations are expected to contain detailed structural information on the overall structure and are therefore directly diagnostic to various backbone conformations. [10][11][12] Since these vibrations often extend over a large part of the peptide backbone, such delocalized modes are also expected to be important for the dynamical and flexible nature of proteins. 13 Additionally, intrinsic hydrogen bond vibrations can be directly probed in the far-IR region, 14,15 as previously shown for condensed phase systems using low-frequency FTIR spectroscopy.…”

Section: Introductionmentioning

confidence: 99%

Can far-IR action spectroscopy combined with BOMD simulations be conformation selective?

Mahé

Jaeqx

Rijs

et al. 2015

Phys. Chem. Chem. Phys.

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Section: Introductionmentioning

confidence: 99%

Can far-IR action spectroscopy combined with BOMD simulations be conformation selective?

Mahé

Jaeqx

Rijs

et al. 2015

Phys. Chem. Chem. Phys.

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“…The intermolecular vibrational modes in the frequency window from 1 THz up to about 10 THz (16,17), corresponding to ≈30-300 cm −1 , have been proven recently to be a unique tool to study the hydration dynamics around solutes (18)(19)(20)(21). Using THz laser spectroscopy, water dynamics has been shown to be influenced within an "extended dynamical hydration shell" (20) of about 6-7 Å for small solutes like carbohydrates (18) by changes in the absolute absorption intensity as probed at 2.4 THz (i.e., ≈80 cm −1 ).…”

mentioning

confidence: 99%

Dissecting the THz spectrum of liquid water from first principles via correlations in time and space

Heyden

Sun

Funkner

et al. 2010

Proc. Natl. Acad. Sci. U.S.A.

400

490

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Solvation of molecules in water is at the heart of a myriad of molecular phenomena and of crucial importance to understanding such diverse issues as chemical reactivity or biomolecular function. Complementing well-established approaches, it has been shown that laser spectroscopy in the THz frequency domain offers new insights into hydration from small solutes to proteins. Upon introducing spatially-resolved analyses of the absorption cross section by simulations, the sensitivity of THz spectroscopy is traced back to characteristic distance-dependent modulations of absorption intensities for bulk water. The prominent peak at ≈200 cm -1 is dominated by first-shell dynamics, whereas a concerted motion involving the second solvation shell contributes most significantly to the absorption at about 80 cm -1 ≈2.4 THz. The latter can be understood in terms of an umbrella-like motion of two hydrogen-bonded tetrahedra along the connecting hydrogen bond axis. Thus, a modification of the hydrogen bond network, e.g., due to the presence of a solute, is expected to affect vibrational motion and THz absorption intensity at least on a length scale that corresponds to two layers of solvating water molecules. This result provides a molecular mechanism explaining the experimentally determined sensitivity of absorption changes in the THz domain in terms of distinct, solute-induced dynamical properties in solvation shells of (bio)molecules—even in the absence of well-defined resonances.

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“…Similar results on several small biomolecules are found by Plusquellic and coworkers. 10 Future security-related THz scanners could be operated with CW photomixing systems as proposed in refs. 172,174 When looking for molecular resonances, only those narrow frequency windows are scanned where spectral features of the species of interest appear.…”

Section: Gaseous Phase Spectroscopymentioning

confidence: 99%

“…6 The THz range covers the energy range for molecular rotation of polar molecules and librations of macromolecules. Because rotation spectra with many narrow characteristic lines in this frequency range represent highly selective fingerprints of molecules, [7][8][9] including (large) organic molecules, [10][11][12][13] high-resolution THz absorption spectroscopy is very appealing for chemical composition analysis, even down to the parts-per-million range. 14 In combination with imaging techniques-in particular by transmission or reflection scanningthe strong spectral sensitivity of the absorption allows for pictures that isolate certain materials or substances, 15 a property of interest to medicine, biology, and industrial production processes.…”

mentioning

confidence: 99%

Tunable, continuous-wave Terahertz photomixer sources and applications

Preu

Döhler

Malzer

et al. 2011

Journal of Applied Physics

424

293

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Realization of gigahertz-frequency impedance matching circuits for nano-scale devices Appl. Phys. Lett. 101, 053108 (2012) Synchronization of a renewable energy inverter with the grid J. Renewable Sustainable Energy 4, 043103 (2012) Monolithic high-temperature superconducting heterodyne Josephson frequency down-converter Appl. Phys. Lett. 100, 262604 (2012) Generation of pure phase and amplitude-modulated signals at microwave frequencies Rev. Sci. Instrum. 83, 064705 (2012) Additional information on J. Appl. Phys. This review is focused on the latest developments in continuous-wave (CW) photomixing for Terahertz (THz) generation. The first part of the paper explains the limiting factors for operation at high frequencies $ 1 THz, namely transit time or lifetime roll-off, antenna (R)-device (C) RC rolloff, current screening and blocking, and heat dissipation. We will present various realizations of both photoconductive and p-i-n diode-based photomixers to overcome these limitations, including perspectives on novel materials for high-power photomixers operating at telecom wavelengths (1550 nm). In addition to the classical approach of feeding current originating from a small semiconductor photomixer device to an antenna (antenna-based emitter, AE), an antennaless approach in which the active area itself radiates (large area emitter, LAE) is discussed in detail. Although we focus on CW photomixing, we briefly discuss recent results for LAEs under pulsed conditions. Record power levels of 1.5 mW average power and conversion efficiencies as high as 2 Â 10 À3 have been reached, about 2 orders of magnitude higher than those obtained with CW antenna-based emitters. The second part of the paper is devoted to applications for CW photomixers. We begin with a discussion of the development of novel THz optics. Special attention is paid to experiments exploiting the long coherence length of CW photomixers for coherent emission and detection of THz arrays. The long coherence length comes with an unprecedented narrow linewidth. This is of particular interest for spectroscopic applications, the field in which THz research has perhaps the highest impact. We point out that CW spectroscopy systems may potentially be more compact, cheaper, and more accurate than conventional pulsed systems. These features are attributed to telecom-wavelength compatibility, to excellent frequency resolution, and to their huge spectral density. The paper concludes with prototype experiments of THz wireless LAN applications. For future telecommunication systems, the limited bandwidth of photodiodes is inadequate for further upshifting carrier frequencies. This, however, will soon be required for increased data throughput. The implementation of telecom-wavelength compatible photomixing diodes for down-conversion of an optical carrier signal to a (sub-)THz RF signal will be required.

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Applications of Terahertz Spectroscopy in Biosystems

Cited by 287 publications

References 110 publications

Can far-IR action spectroscopy combined with BOMD simulations be conformation selective?

Can far-IR action spectroscopy combined with BOMD simulations be conformation selective?

Dissecting the THz spectrum of liquid water from first principles via correlations in time and space

Tunable, continuous-wave Terahertz photomixer sources and applications

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