Your search keyword '"Cerullo, G"' showing total 44 results

1. Mapping the nonequilibrium order parameter of a quasi-two dimensional charge density wave system.

Author

Sayers, C. J., Zhang, Y., Sanders, C. E., Chapman, R. T., Wyatt, A. S., Chatterjee, G., Springate, E., Cerullo, G., Wolverson, D., Da Como, E., and Carpene, E.

Subjects

CHARGE density waves, PHASE transitions, PHOTOELECTRON spectroscopy, AB-initio calculations, LATTICE dynamics

Abstract

The driving force of a charge density wave (CDW) transition in quasi-two dimensional systems is still debated, while being crucial in understanding electronic correlation in such materials. Here we use femtosecond time- and angle-resolved photoemission spectroscopy combined with computational methods to investigate the coherent lattice dynamics of a prototypical CDW system. The photo-induced temporal evolution of the periodic lattice distortion associated with the amplitude mode reveals the dynamics of the free energy functional governing the order parameter. Our approach establishes that optically-induced screening rather than CDW melting at the electronic level leads to a transiently modified potential which explains the anharmonic behaviour of the amplitude mode and discloses the structural origin of the symmetry-breaking phase transition. The charge density wave (CDW) formation mechanisms in 2D and quasi-2D systems are still highly debated. Here, the authors combine time-resolved ARPES and ab initio calculations to map the free energy functional in the prototypical CDW compound 1T-TaSe2 concluding that the CDW state is driven by structural rather than electronic instabilities. [ABSTRACT FROM AUTHOR]

Published

2024

2. Adapting wild biodiversity conservation approaches to conserve agrobiodiversity.

Author

Jago, S., Elliott, K. F. V. A., Tovar, C., Soto Gomez, M., Starnes, T., Abebe, W., Alexander, C., Antonelli, A., Baldaszti, L., Cerullo, G., Cockel, C., Collison, D., Cowell, C., Delgado, R., Demissew, S., Devenish, A., Dhanjal-Adams, K., Diazgranados, M., Drucker, A. G., and Dulloo, M. E.

Published

2024

3. Robust singlet fission in pentacene thin films with tuned charge transfer interactions.

Author

Broch, K., Dieterle, J., Branchi, F., Hestand, N. J., Olivier, Y., Tamura, H., Cruz, C., Nichols, V. M., Hinderhofer, A., Beljonne, D., Spano, F. C., Cerullo, G., Bardeen, C. J., and Schreiber, F.

Subjects

THIN films, PENTACENE, INTERMOLECULAR interactions, EXCITED states, SINGLET state (Quantum mechanics), OPTICAL properties

Abstract

Singlet fission, the spin-allowed photophysical process converting an excited singlet state into two triplet states, has attracted significant attention for device applications. Research so far has focused mainly on the understanding of singlet fission in pure materials, yet blends offer the promise of a controlled tuning of intermolecular interactions, impacting singlet fission efficiencies. Here we report a study of singlet fission in mixtures of pentacene with weakly interacting spacer molecules. Comparison of experimentally determined stationary optical properties and theoretical calculations indicates a reduction of charge-transfer interactions between pentacene molecules with increasing spacer molecule fraction. Theory predicts that the reduced interactions slow down singlet fission in these blends, but surprisingly we find that singlet fission occurs on a timescale comparable to that in pure crystalline pentacene. We explain the observed robustness of singlet fission in such mixed films by a mechanism of exciton diffusion to hot spots with closer intermolecular spacings. [ABSTRACT FROM AUTHOR]

Published

2018

4. Raman spectroscopy of graphene under ultrafast laser excitation.

Author

Ferrante, C., Virga, A., Benfatto, L., Martinati, M., De Fazio, D., Sassi, U., Fasolato, C., Ott, A. K., Postorino, P., Yoon, D., Cerullo, G., Mauri, F., Ferrari, A. C., and Scopigno, T.

Subjects

RAMAN spectroscopy, ELECTRON-phonon interactions, HOT carriers, CHARGE carriers, LASERS, RAMAN effect

Abstract

The equilibrium optical phonons of graphene are well characterized in terms of anharmonicity and electron–phonon interactions; however, their non-equilibrium properties in the presence of hot charge carriers are still not fully explored. Here we study the Raman spectrum of graphene under ultrafast laser excitation with 3 ps pulses, which trade off between impulsive stimulation and spectral resolution. We localize energy into hot carriers, generating non-equilibrium temperatures in the ~1700–3100 K range, far exceeding that of the phonon bath, while simultaneously detecting the Raman response. The linewidths of both G and 2D peaks show an increase as function of the electronic temperature. We explain this as a result of the Dirac cones’ broadening and electron–phonon scattering in the highly excited transient regime, important for the emerging field of graphene-based photonics and optoelectronics [ABSTRACT FROM AUTHOR]

Published

2018

5. Tunable few-optical cycle pulses and advanced ultrafast spectroscopic techniques.

Author

De Silvestri, S., Manzoni, C., Borrego-Varillas, R., Oriana, A., and Cerullo, G.

Abstract

Summary: Continuous progress in the development of light sources for the generation of tunable ultrashort pulses from the near-infrared to all the visible range provides a very efficient tool for spectroscopic techniques able to follow ultrafast dynamical processes in matter. Second-order nonlinear optical processes like Optical Parametric Amplification (OPA) have demonstrated the capability of generating light pulses with durations down to few cycles of the carrier wave. The aim of this paper is to introduce the basic concepts for the generation of tunable ultrashort pulses and show their application to ultrafast spectroscopy. We will discuss the principles of parametric amplification and the main criteria for the design of broadband OPAs; we will also illustrate some of the schemes providing ultrashort pulses in the spectral ranges from the ultraviolet to the infrared, offering a comprehensive overview of the state of the art of the current research activity in this rapidly evolving field. An important requirement for the applications of ultrashort pulses is the capability to measure the amplitude and phase of their electric field; we will discuss a rich ensemble of spectrographic, interferometric or phase-scanning techniques for the temporal characterization of ultrashort pulses. Pump-probe techniques with broadband pulses and more recently two-dimensional spectroscopic techniques allow to follow in great detail complex dynamical processes. The few examples reported in this review just provide a sample of what is already a vast class of ultrafast phenomena, which can be studied nowadays in real time. [ABSTRACT FROM AUTHOR]

Published

2018

6. Ultrabroadband Two-Dimensional Spectroscopy by a Birefringent Delay Line.

Author

Réhault, J., Oriana, A., Maiuri, M., Brida, D., Polli, D., Manzoni, C., and Cerullo, G.

Published

2015

7. 2D IR Spectroscopy with Phase-Locked Pulse Pairs from a Birefringent Delay Line.

Author

Réhault, J., Maiuri, M., Brida, D., Manzoni, C., Helbing, Jan, and Cerullo, G.

Published

2015

8. Ultrafast Dynamics in Epitaxial Silicene on Ag(111).

Author

Cinquanta, E., Conte, S.D., Chiappe, D., Grazianetti, C., Fanciulli, M., Molle, A., Cerullo, G., Stagira, S., Scotognella, F., and Vozzi, C.

Published

2015

9. Probing ultrafast photo-induced dynamics of the exchange energy in a Heisenberg antiferromagnet.

Author

Batignani, G., Bossini, D., Di Palo, N., Ferrante, C., Pontecorvo, E., Cerullo, G., Kimel, A., and Scopigno, T.

Subjects

OPTICAL control, CHARGE exchange reactions, HEISENBERG model, FERROMAGNETISM, RAMAN effect

Abstract

Manipulating the macroscopic phases of solids using ultrashort light pulses has resulted in spectacular phenomena, including metal-insulator transitions, superconductivity and subpicosecond modification of magnetic order. The development of this research area strongly depends on the understanding and optical control of fundamental interactions in condensed matter, in particular the exchange interaction. However, disentangling the timescales relevant for the contributions of the exchange interaction and spin dynamics to the exchange energy, Eex, is a challenge. Here, we introduce femtosecond stimulated Raman scattering to unravel the ultrafast photo-induced dynamics of magnetic excitations at the edge of the Brillouin zone. We find that femtosecond laser excitation of the antiferromagnet KNiF3 triggers a spectral shift of the two-magnon line, the energy of which is proportional to Eex. By unravelling the photo-induced modification of the two-magnon line frequency from a dominating nonlinear optical effect, we find that Eex is increased by the electromagnetic stimulus. [ABSTRACT FROM AUTHOR]

Published

2015

10. Snapshots of the retarded interaction of charge carriers with ultrafast fluctuations in cuprates.

Author

Dal Conte, S., Vidmar, L., Golež, D., Mierzejewski, M., Soavi, G., Peli, S., Banfi, F., Ferrini, G., Comin, R., Ludbrook, B. M., Chauviere, L., Zhigadlo, N. D., Eisaki, H., Greven, M., Lupi, S., Damascelli, A., Brida, D., Capone, M., Bonča, J., and Cerullo, G.

Subjects

HIGH temperature superconductors, CHARGE carriers, COPPER oxide superconductors, FEMTOSECOND pulses, PHOTOEXCITATION, INELASTIC scattering, ANTIFERROMAGNETISM, HUBBARD model

Abstract

One of the pivotal questions in the physics of high-temperature superconductors is whether the low-energy dynamics of the charge carriers is mediated by bosons with a characteristic timescale. This issue has remained elusive as electronic correlations are expected to greatly accelerate the electron-boson scattering processes, confining them to the very femtosecond timescale that is hard to access even with state-of-the-art ultrafast techniques. Here we simultaneously push the time resolution and frequency range of transient reflectivity measurements up to an unprecedented level, enabling us to directly observe the ∼16 fs build-up of the effective electron-boson interaction in hole-doped copper oxides. This extremely fast timescale is in agreement with numerical calculations based on the t-J model and the repulsive Hubbard model, in which the relaxation of the photo-excited charges is achieved via inelastic scattering with short-range antiferromagnetic excitations. [ABSTRACT FROM AUTHOR]

Published

2015

11. Tracking the primary photoconversion events in rhodopsins by ultrafast optical spectroscopy.

Author

Polli, D., Rivalta, I., Nenov, A., Weingart, O., Garavelli, M., and Cerullo, G.

Subjects

RHODOPSIN, VISUAL pigments, OPTICAL spectroscopy, SPECTRUM analysis, PROTEINS, PHOTOBIOLOGY

Abstract

Opsins are a broad class of photoactive proteins, found in all classes of living beings from bacteria to higher animals, which work either as light-driven ion pumps or as visual pigments. The photoactive function in opsins is triggered by the ultrafast isomerization of the retinal chromophore around a specific carbon double bond, leading to a highly distorted, spectrally red-shifted photoproduct. Understanding, by either experimental or computational methods, the time course of this photoisomerization process is of utmost importance, both for its biological significance and because opsin proteins are the blueprint for molecular photoswitches. This paper focuses on the ultrafast 11-cis to all-trans isomerization in visual rhodopsins, and has a twofold goal: (i) to review the most recent experimental and computational efforts aimed at exposing the very early phases of photoconversion; and (ii) discuss future advanced experiments and calculations that will allow an even deeper understanding of the process. We present high time resolution pump–probe data, enabling us to follow the wavepacket motion through the conical intersection connecting excited and ground states, as well as femtosecond stimulated Raman scattering data allowing us to track the subsequent structural evolution until the first stable all-trans photoproduct is reached. We conclude by introducing computational results for two-dimensional electronic spectroscopy, which has the potential to provide even greater detail on the evolution of the electronic structure of retinal during the photoisomerization process. [ABSTRACT FROM AUTHOR]

Published

2015

12. Hot exciton dissociation in polymer solar cells.

Author

Grancini, G., Maiuri, M., Fazzi, D., Petrozza, A., Egelhaaf, H-J., Brida, D., Cerullo, G., and Lanzani, G.

Subjects

PHOTOVOLTAIC power generation, SOLAR cells, HETEROJUNCTIONS, CHARGE transfer, POLARONS, THERMAL neutrons

Abstract

The standard picture of photovoltaic conversion in all-organic bulk heterojunction solar cells predicts that the initial excitation dissociates at the donor/acceptor interface after thermalization. Accordingly, on above-gap excitation, the excess photon energy is quickly lost by internal dissipation. Here we directly target the interfacial physics of an efficient low-bandgap polymer/PC60BM system. Exciton splitting occurs within the first 50?fs, creating both interfacial charge transfer states (CTSs) and polaron species. On high-energy excitation, higher-lying singlet states convert into hot interfacial CTSs that effectively contribute to free-polaron generation. We rationalize these findings in terms of a higher degree of delocalization of the hot CTSs with respect to the relaxed ones, which enhances the probability of charge dissociation in the first 200?fs. Thus, the hot CTS dissociation produces an overall increase in the charge generation yield. [ABSTRACT FROM AUTHOR]

Published

2013

13. Arthroscopic patellar reinsertion of the MPFL in acute patellar dislocations.

Author

Mariani, P. P., Liguori, L., Cerullo, G., Iannella, G., and Floris, L.

Subjects

PATELLA dislocation, PATELLA, JOINT dislocations, STIFLE joint, ARTHROSCOPY, SURGERY, THERAPEUTICS

Abstract

Purpose: The objective of this study was to evaluate the mid-term results of a new technique for the arthroscopic repair of MPFL after an acute patellar dislocation (APD). Materials: The series included 17 patients (11 men and 6 women) with a first episode of acute patellar dislocation; treated over a period of 6 years. Re-dislocation, subjective symptoms and functional limitations were evaluated at an average follow-up of 2.2 years (1-5.5). The patients were evaluated with the Lysholm and the Kujala scoring systems. Results: At follow-up, no re-dislocation was reported. Only one patient referred an episode of patellar instability, without a distinct dislocation. The postoperative median Lysholm score was 90 (72-100). The median Kujala score was 92 (75-100). Fourteen out of 17 patients were able to return to sports at the same level as before. Conclusion: When the MPFL is avulsed from the patella, the proposed technique has the advantage of restoring tension of the ligament through reattachment at the patellar border with two trans-patellar sutures. The full-arthroscopic approach has the advantage of being less invasive and having a shorter recovery time. [ABSTRACT FROM AUTHOR]

Published

2011

14. Quantum interference between charge excitation paths in a solid-state Mott insulator.

Author

Wall, S., Brida, D., Clark, S. R., Ehrke, H. P., Jaksch, D., Ardavan, A., Bonora, S., Uemura, H., Takahashi, Y., Hasegawa, T., Okamoto, H., Cerullo, G., and Cavalleri, A.

Subjects

QUANTUM interference, QUANTUM theory, ELECTRONIC excitation, OPTICAL lattices, OSCILLATIONS, DIELECTRIC devices

Abstract

Competition between electron localization and delocalization in Mott insulators underpins the physics of strongly correlated electron systems. Photoexcitation, which redistributes charge, can control this many-body process on the ultrafast timescale. So far, time-resolved studies have been carried out in solids in which other degrees of freedom, such as lattice, spin or orbital excitations, dominate. However, the underlying quantum dynamics of 'bare' electronic excitations has remained out of reach. Quantum many-body dynamics are observed only in the controlled environment of optical lattices where the dynamics are slower and lattice excitations are absent. By using nearly single-cycle near-infrared pulses, we have measured coherent electronic excitations in the organic salt ET-F2TCNQ, a prototypical one-dimensional Mott insulator. After photoexcitation, a new resonance appears, which oscillates at 25 THz. Time-dependent simulations of the Mott-Hubbard Hamiltonian reproduce the oscillations, showing that electronic delocalization occurs through quantum interference between bound and ionized holon-doublon pairs. [ABSTRACT FROM AUTHOR]

Published

2011

15. Lasing in femtosecond laser written optical waveguides.

Author

Osellame, R., Della Valle, G., Chiodo, N., Taccheo, S., Laporta, P., Svelto, O., and Cerullo, G.

Subjects

LASER beams, INDUSTRIAL lasers, ULTRASHORT laser pulses, OPTICAL waveguides, WAVEGUIDES, TRANSMITTERS (Communication)

Abstract

The paper reviews our research efforts in femtosecond laser inscription of optical waveguides inside active Er:Yb-doped glass substrates and in the development of compact waveguide lasers. By optimising the fabrication parameters we obtain waveguides with coupling losses to standard telecom fibers as low as 0.1 dB/facet and propagation losses lower than 0.4 dB/cm. The waveguides provide net gain, with a peak value of 7 dB, and laser action in the whole telecommunications C-band (1530–1565 nm). Single-frequency operation with output power up to 50 mW and passive mode-locking are demonstrated, making the systems useful as compact telecom transmitters. Our results show that femtosecond laser writing can produce high-quality photonic devices, with performance comparable to or better than that obtainable with conventional waveguide fabrication techniques. [ABSTRACT FROM AUTHOR]

Published

2008

16. Coherent orbital waves in the photo-induced insulator–metal dynamics of a magnetoresistive manganite.

Author

Polli, D., Rini, M., Wall, S., Schoenlein, R. W., Tomioka, Y., Tokura, Y., Cerullo, G., and Cavalleri, A.

Subjects

MANGANITE, INSULATING materials, MAGNETORESISTANCE, LATTICE dynamics, METAL-insulator transitions, OSCILLATIONS, POLARONS

Abstract

Photo-excitation can drive strongly correlated electron insulators into competing conducting phases, resulting in giant and ultrafast changes of their electronic and magnetic properties. The underlying non-equilibrium dynamics involve many degrees of freedom at once, whereby sufficiently short optical pulses can trigger the corresponding collective modes of the solid along temporally coherent pathways. The characteristic frequencies of these modes range between the few GHz of acoustic vibrations to the tens or even hundreds of THz for purely electronic excitations. Virtually all experiments so far have used 100 fs or longer pulses, detecting only comparatively slow lattice dynamics. Here, we use sub-10-fs optical pulses to study the photo-induced insulator–metal transition in the magnetoresistive manganite Pr0.7Ca0.3MnO3. At room temperature, we find that the time-dependent pathway towards the metallic phase is accompanied by coherent 31 THz oscillations of the optical reflectivity, significantly faster than all lattice vibrations. These high-frequency oscillations are suggestive of coherent orbital waves, crystal-field excitations triggered here by impulsive stimulated Raman scattering. Orbital waves are likely to be initially localized to the small polarons of this room-temperature manganite, coupling to other degrees of freedom at longer times, as photo-domains coalesce into a metallic phase. [ABSTRACT FROM AUTHOR]

Published

2007

17. Real-time observation of nonlinear coherent phonon dynamics in single-walled carbon nanotubes.

Author

Gambetta, A., Manzoni, C., Menna, E., Meneghetti, M., Cerullo, G., Lanzani, G., Tretiak, S., Piryatinski, A., Saxena, A., Martin, R. L., and Bishop, A. R.

Subjects

PHONONS, NANOTUBES, CARBON, QUANTUM theory, DYNAMICS, EXCITON theory

Abstract

Single-walled carbon nanotubes (SWNTs) are π-conjugated, quasi-one-dimensional structures consisting of rolled-up graphene sheets that, depending on their chirality, behave as semiconductors or metals; owing to their unique properties, they enable groundbreaking applications in mechanics, nanoelectronics and photonics. In semiconducting SWNTs, medium-sized excitons (3–5 nm) with large binding energy and oscillator strength are the fundamental excitations; exciton wavefunction localization and one-dimensionality give rise to a strong electron–phonon coupling, the study of which is crucial for the understanding of their electronic and optical properties. Here we report on the use of resonant sub-10-fs visible pulses to generate and detect, in the time domain, coherent phonons in SWNT ensembles. We observe vibrational wavepackets for the radial breathing mode (RBM) and the G mode, and in particular their anharmonic coupling, resulting in a frequency modulation of the G mode by the RBM. Quantum-chemical modelling shows that this effect is due to a corrugation of the SWNT surface on photoexcitation, leading to a coupling between longitudinal and radial vibrations. [ABSTRACT FROM AUTHOR]

Published

2006

18. Ultrafast Carriers Dynamics in Silicon: A Joint Experimental and Theoretical Study.

Author

Dal Conte, S., Sangalli, D., Marini, A., Cerullo, G., and Manzoni, C.

Published

2015

19. Ultra-fast spectroscopy and extreme nonlinear optics by few-optical-cycle laser pulses.

Author

Cerullo, G., Lanzani, G., Nisoli, M., Priori, E., Stagira, S., Zavelani-Rossi, M., Svelto, O., Poletto, L., Villoresi, P., Altucci, C., and de Lisio, C.

Subjects

*ULTRASHORT laser pulses, *SPECTRUM analysis, *NONLINEAR optics

Abstract

Abstract. Many fundamental processes of radiation-matter interaction, which take place on the ultra-short time scale, can now be directly investigated by using few-optical-cycles light pulses with duration < 10 fs. We discuss two techniques for generating such pulses: broad-band parametric amplification, which allows the generation of pulses in the visible range suitable for spectroscopy, and compression of high-energy light pulses in a hollow fiber. As an example of application in time-resolved spectroscopy we report results of pump-probe experiments in a prototypical conjugated molecule, namely sexithiophene. The new laser sources, due to their characteristics of peak power and coherence, also allow the exploration of new fields of experimental physics, such as extreme nonlinear optics. We focus on high-order harmonics, showing that a high-energy bunch of photons, up to the X-ray-energy region, with coherence typical of laser radiation and time duration comparable to or shorter than the exciting pulses, can be generated. [ABSTRACT FROM AUTHOR]

Published

2000

20. Femtosecond laser fabrication for the integration of optical sensors in microfluidic lab-on-chip devices.

Author

Osellame, R., Vazquez, R. Martinez, Dongre, C., Dekker, R., Hoekstra, H. J. W. M., Pollnau, M., Ramponi, R., and Cerullo, G.

Abstract

Femtosecond lasers enable the fabrication of both optical waveguides and buried microfluidic channels on a glass substrate. The waveguides are used to integrate optical detection in a commercial microfluidic lab-on-chip for capillary electrophoresis. [ABSTRACT FROM AUTHOR]

Published

2009

21. Sub-two-cycle pulses at 1.6 μm from an optical parametric amplifier.

Author

Brida, D., Cirmi, G., Manzoni, C., Marangoni, M., Bonora, S., Villoresi, P., De Silvestri, S., and Cerullo, G.

Abstract

We demonstrate two optical parametric amplifier schemes, based on β-bariumborate and periodically-poled lithium tantalate respectively, generating ultrabroadband pulses in the 1-2 μm range. Using a deformable mirror compressor we obtain 8.5-fs pulses at 1.6 μm. [ABSTRACT FROM AUTHOR]

Published

2009

22. Generation of Broadband mid-infrared Pulses from an Optical Parametric Amplifier.

Author

Manzoni, C., Brida, D., Cirmi, G., Marangoni, M., De Silvestri, S., and Cerullo, G.

Abstract

We generate broadband mid-IR pulses from an 800-nm-driven optical parametric amplifier in LiIO3. Exploiting its broad phase-matching bandwidth around 1 μm, we produced 2-μJ idler pulses in the 3-4 μm range supporting 30-fs transform-limited duration. [ABSTRACT FROM AUTHOR]

Published

2009

23. Coherent phonons in cyanine dye monomers and J-aggregates.

Author

Virgili, T., Ceccarelli, S., Lüer, L., Lanzani, G., Cerullo, G., and Lidzey, D. G.

Abstract

Using pump-probe spectroscopy, we investigate coherent oscillations in cyanine dye, in monomeric form and in J-aggregate. We identify a low energetic intramolecular mode amplified in the J-aggregate film producing a modulation of the excitonic coupling. [ABSTRACT FROM AUTHOR]

Published

2009

24. Observation of High-Frequency Coherent Vibrational Motion with Strongly Chirped Probe Pulses.

Author

Polli, D., Brida, D., Lanzani, G., and Cerullo, G.

Abstract

We observe time-domain coherent vibrational wavepackets at 1585-cm-1 frequency (21-fs period) using broadband probe pulses strongly chirped up to 150-fs duration. The results are explained using the chronocyclic (Wigner) representation of the chirped pulse. [ABSTRACT FROM AUTHOR]

Published

2009

25. Temporal dynamics of polaritons in a stronglycoupled organic-semiconductor microcavity.

Author

Virgili, T., Ceccarelli, S., Polli, D., Lanzani, G., Cerullo, G., and Lidzey, D. G.

Abstract

Using pump-probe spectroscopy, we investigate exciton-polariton dynamics in a strongly-coupled organic microcavity. We observe Rabi oscillations, decay of polaritons and the signature of the upper-branch cavity polaritons scattering to the exciton reservoir with phonon emission. [ABSTRACT FROM AUTHOR]

Published

2009

26. Coherent Orbital Waves in Manganites.

Author

Wall, S., Polli, D., Rini, M., Dharmalingam, P., Boothroyd, A. T., Tomioka, Y., Tokura, Y., Schoenlein, R. W., Cerullo, G., and Cavalleri, A.

Abstract

High temporal resolution pump-probe experiments are used to excite and observe highfrequency orbital oscillations in the room temperature phase of 2D and 3D Colossal Magneto-Resistive manganites. [ABSTRACT FROM AUTHOR]

Published

2009

27. Clocking the Collapse of a Mott Gap.

Author

Wall, S., Brida, D., Ehrke, H. P., Ardavan, A., Bonora, S., Matsusaki, H., Uemura, H., Takahashi, Y., Hasegawa, T., Okamoto, H., Cerullo, G., and Cavalleri, A.

Abstract

We probe the dynamics of band gap collapse in the Mott (electronic) insulator ETF2TCNQ and Peierls (structural) insulator K-TCNQ. The collapse of the Mott gap is a purely electronic process occurring within 20 fs. In the Peierls insulator, the gap collapse takes 300 fs, only after a lattice distortion has relaxed. [ABSTRACT FROM AUTHOR]

Published

2009

28. Anterior cruciate ligament patellar tendon reconstruction: it is probably better to leave the tendon defect open!

Author

Cerullo, G., Puddu, G., Gianní, E., Damiani, A., Pigozzi, F., and Gianní, E

Subjects

ANTERIOR cruciate ligament surgery, PATELLAR ligament transplantation, SKELETAL muscle physiology, ANTERIOR cruciate ligament, COMPARATIVE studies, COMPUTED tomography, RANGE of motion of joints, LONGITUDINAL method, RESEARCH methodology, MEDICAL cooperation, MUSCLE contraction, POSTOPERATIVE pain, RELAXATION for health, RESEARCH, SCARS, SPORTS, SUTURING, ULTRASONIC imaging, EVALUATION research, PATELLAR tendon, RANDOMIZED controlled trials, WEIGHT-bearing (Orthopedics)

Abstract

The purpose of our prospective study was to establish whether or not in anterior cruciate ligament (ACL) patellar tendon reconstruction the tendon defect has to be closed. In 50 consecutive ACL patellar tendon reconstructions, the tendon defect was randomly closed (group I) or left open (group II). The following data were recorded from all patients on the 4th and 14th days post operation: range of motion (ROM), pain at rest, pain and validity at isometric contraction, ability of bent leg raising (at 4th day) and straight leg raising (at 14th day). All the patients underwent ultrasonographic examination after 3 months and X-ray scanning at 6 months post operation. Forty patients underwent a CT-scan examination at 6 months. Thirty patients underwent isokinetic testing between 10 and 12 months post operation. Evaluating the immediate post operation data, no statistically significant differences emerged between the two groups. Ultrasonography showed in 68% of the knees of group I (defect closed) a thickened patellar tendon (PT), while in 60% of group II it was of normal thickness. No patients of either group developed patella infera by X-ray evaluation 6 months post operation. CT scans at 6 months showed that 100% of the knees of group I had a thickened PT in toto (nearly twice as thick as normal). Scar tissue was present not only in its central third but also in more than half of the cases in the medial and lateral third. In group II 75% of the patients had a normal thickness PT and 25% presented with only a minimal thickening. Scar tissue was distinguished only at its central third.(ABSTRACT TRUNCATED AT 250 WORDS) [ABSTRACT FROM AUTHOR]

Published

1995

29. The double patella syndrome.

Author

Cipolla, M., Cerullo, G., Franco, V., Gianní, E., Puddu, G., and Gianní, E

Abstract

First described by A. Trillat, the double patella is an uncommon clinical feature following repetitive injuries of the extensor mechanism of the knee. The first injury is a tendo-periosteal avulsion of the suprapatellar or, less frequently, infrapatellar tendon from the corresponding patellar pole. Often these avulsions are misdiagnosed and therefore treated only with a cast or no immobilization at all. Subsequent giving-way episodes lead to extensive ossification which is adjacent to or separated from the patella. The peculiar shape of this ossification overriding or underlying the primary kneecap justifies the denomination of double patella. Surgical treatment consists of removal of the calcification and reattachment of the tendon to the patella by transosseous sutures. [ABSTRACT FROM AUTHOR]

Published

1995

30. Output power limitations in CW single transverse mode Nd: YAG lasers with a rod of large cross-section.

Author

Cerullo, G., Silvestri, S., Magni, V., and Svelto, O.

Abstract

The output characteristics of a continuous-wave lamp-pumped Nd:YAG laser using a rod of 6.4 mm diameter and stable resonators with large fundamental mode volume have been systematically investigated by testing various resonators. It is shown that, independently of the resonator, thermal focusing and birefringence set an intrinsic limitation to the fundamental mode volume, such that the maximum usable TEM spot size in the rod is about 1 mm, even if in principle the rod cross-section could sustain a much larger mode. A qualitative theoretical model explains the experimental data. A maximum output power of about 40 W was observed in a nearly diffractionlimited beam. [ABSTRACT FROM AUTHOR]

Published

1993

31. Arthroscopic treatment of the flexed arthritic knee in active middle-aged patients.

Author

Puddu, G., Cipolla, M., Cerullo, G., and Scala, A.

Abstract

Twenty patients (22 knees) treated by arthroscopic removal of the anterior tibial osteophyte were selected for review from more than 150 arthroscopic debridements of the knee over a 5-year period (1986-1991). All the patients were middle-aged active individuals with competitive sports activity in their past. Their main complaint was flexion deformity of the knee (5 degrees-20 degrees) associated with pain and discomfort in recreational sporting activities and/or in activities of daily living. Roentgenographic examination in all cases showed an anterior tibial osteophyte located just anterior and medial to the anteromedial tibial spine of the intercondylar eminence. No varus or valgus malalignment or subchondral necrosis was detected. Arthroscopic treatment consisting of removal of the anterior tibial osteophyte by shaving and extraction of the bone, followed by a moderate notchplasty, was sufficient to improve the active extension of the knee and to decrease the pain and stiffness of the joint. [ABSTRACT FROM AUTHOR]

Published

1994

32. Coherent anti-Stokes Raman spectroscopy of single and multi-layer graphene.

Author

Virga, A., Ferrante, C., Batignani, G., De Fazio, D., Nunn, A. D. G., Ferrari, A. C., Cerullo, G., and Scopigno, T.

Subjects

ANTI-Stokes scattering, RAMAN spectroscopy, GRAPHENE, FOUR-wave mixing, HARMONIC generation

Abstract

Spontaneous Raman spectroscopy is a powerful characterization tool for graphene research. Its extension to the coherent regime, despite the large nonlinear third-order susceptibility of graphene, has so far proven challenging. Due to its gapless nature, several interfering electronic and phononic transitions concur to generate its optical response, preventing to retrieve spectral profiles analogous to those of spontaneous Raman. Here we report stimulated Raman spectroscopy of the G-phonon in single and multi-layer graphene, through coherent anti-Stokes Raman Scattering. The nonlinear signal is dominated by a vibrationally non-resonant background, obscuring the Raman lineshape. We demonstrate that the vibrationally resonant coherent anti-Stokes Raman Scattering peak can be measured by reducing the temporal overlap of the laser excitation pulses, suppressing the vibrationally non-resonant background. We model the spectra, taking into account the electronically resonant nature of both. We show how coherent anti-Stokes Raman Scattering can be used for graphene imaging with vibrational sensitivity. Coherent anti-Stokes Raman Scattering (CARS) accesses the vibrational properties of a material via nonlinear four-wave mixing (FWM); CARS in graphene has not been observed to date despite its high nonlinear third-order susceptibility. Here, the authors devised a FWM scheme to perform stimulated Raman spectroscopy in single and multi-layer graphene through CARS. [ABSTRACT FROM AUTHOR]

Published

2019

33. Reply to 'Measuring internal quantum efficiency to demonstrate hot exciton dissociation'.

Author

Grancini, G., Binda, M., Criante, L., Perissinotto, S., Maiuri, M., Fazzi, D., Petrozza, A., Egelhaaf, H-J., Brida, D., Cerullo, G., and Lanzani, G.

Subjects

QUANTUM efficiency, SOLAR cells

Abstract

A letter to the editor is presented in response to an article related to research on internal quantum efficiency (IQE) spectrum obtained from a detailed characterization of a solar cell.

Published

2013

34. Macrospin dynamics in antiferromagnets triggered by sub-20 femtosecond injection of nanomagnons.

Author

Bossini, D., Dal Conte, S., Hashimoto, Y., Secchi, A., Pisarev, R. V., Rasing, Th., Cerullo, G., and Kimel, A. V.

Published

2016

35. Ultrafast collinear scattering and carrier multiplication in graphene.

Author

Brida, D., Tomadin, A., Manzoni, C., Kim, Y. J., Lombardo, A., Milana, S., Nair, R. R., Novoselov, K. S., Ferrari, A. C., Cerullo, G., and Polini, M.

Published

2013

36. Acoustic dynamics of network-forming glasses at mesoscopic wavelengths.

Author

Ferrante, C., Pontecorvo, E., Cerullo, G., Chiasera, A., Ruocco, G., Schirmacher, W., and Scopigno, T.

Published

2013

37. Accurate family history and urinalysis in family members recommended in IgAN.

Author

Schena, F. P., Cerullo, G., and Rossini, M.

Subjects

*CHRONIC kidney failure, *PATIENTS

Abstract

Deals with a study which aimed to evaluate the relative risk of developing ESRD in three generations of a cohort of 110 patients with biopsy-proven IgAN. Methodology used in the study; Results and conclusion.

Published

2002

38. The role of beam profile in high-order harmonic generation by few-optical-cycle pulses.

Author

Nisoli, M., Priori, E., Sansone, G., Stagira, S., Cerullo, G., De Silvestri, S., Altucci, C., Bruzzese, R., de Lisio, C., Villoresi, P., Poletto, L., Pascolini, M., and Tondello, G.

Subjects

LASER beams, OPTICS

Abstract

Few-optical-cycle light pulses, produced by the hollow-fiber compression technique, are used to generate high-order harmonics with excellent spatial characteristics at wavelengths as short as 10 nm. We show that the spatial features of the harmonic radiation are strongly affected by the spatial profile of the excitation beam. The role of the fundamental beam shape has been carefully investigated by means of numerical simulations. The use of a fundamental beam with truncated Bessel radial intensity profile, produced upon propagation along a hollow fiber, allows us to obtain low-divergence, high-brightness harmonic radiation. [ABSTRACT FROM AUTHOR]

Published

2002

39. Few-optical-cycle laser pulses by OPA: broadband chirped mirror compression and SPIDER characterization.

Author

Zavelani-Rossi, M., Polli, D., Cerullo, G., De Silvestri, S., Gallmann, L., Steinmeyer, G., and Keller, U.

Subjects

LASER beams, DISPERSION (Chemistry), MIRRORS

Abstract

We report double-chirped mirrors with custom-tailored dispersion over a bandwidth of 170 THz in the visible. The mirrors are employed in a prism-less compressor for ultra-broadband pulses generated by a non-collinear visible optical parametric amplifier. We also report on the full characterization in amplitude and phase of the compressed pulses by the spectral phase interferometry for direct electric field reconstruction technique, extended to the visible range. The compressed pulses display an almost flat phase from 510 to 710 nm and have nearly transform-limited 5.7-fs duration. Our measurements indicate a potential to further extend the useable bandwidth of mirror-only dispersion-compensation schemes using novel chirped mirror design approaches. [ABSTRACT FROM AUTHOR]

Published

2002

40. Mirror-dispersion-controlled OPA: a compact tool for sub-10-fs spectroscopy in the visible.

Author

Cerullo, G., Nisoli, M., Stagira, S., De Silvestri, S., Tempea, G., Krausz, F., and Ferencz, K.

Subjects

*BORATES, *MIRRORS, *SPECTRUM analysis, *OSCILLATIONS

Abstract

Abstract. We report on a sub-10-fs optical parametric amplifier in the visible, using noncollinear phase matching in beta-barium borate, with a pulse compressor made exclusively of chirped dielectric mirrors. We employ mirrors of novel design, providing negative group delay dispersion for bandwidths of over 200 THz, up to the blue-green spectral region. The resulting setup, compact, easy to operate and reliable, is an ideal tool for ultrafast spectroscopy with extremely high time resolution. We use these pulses to observe in the time domain coherent oscillations in organic molecules with period as short as 16 fs. [ABSTRACT FROM AUTHOR]

Published

2000

41. Spectral analysis of high-order harmonics generated by 30-fs and sub-10-fs laser pulses.

Author

Nisoli, M., Stagira, S., Cerullo, G., De Silvestri, S., Svelto, O., Ceccherini, P., Poletto, L., Tondello, G., Villoresi, P., Altucci, C., Bruzzese, R., and de Lisio, C.

Subjects

RADIATION, NEON, LASER beams, ELECTRICAL harmonics

Abstract

Abstract. The spectral properties of harmonic radiation generated in neon by laser pulses with duration from 30 fs down to 5 fs have been investigated. In the 30-fs temporal regime we have achieved continuously tunable sub-20-nm radiation by changing the gas jet position relative to the laser beam waist. We show that the results of a one-dimensional propagation code partially including three-dimensional focusing effects are in good agreement with the experimental results. Finally, we have performed a spectral characterization of harmonic radiation in the sub-10-fs temporal regime. [ABSTRACT FROM AUTHOR]

Published

2000

42. Giant ultrafast dichroism and birefringence with active nonlocal metasurfaces.

Author

Crotti G, Akturk M, Schirato A, Vinel V, Trifonov AA, Buchvarov IC, Neshev DN, Proietti Zaccaria R, Laporta P, Lemaître A, Leo G, Cerullo G, Maiuri M, and Della Valle G

Abstract

Switching of light polarization on the sub-picosecond timescale is a crucial functionality for applications in a variety of contexts, including telecommunications, biology and chemistry. The ability to control polarization at ultrafast speed would pave the way for the development of unprecedented free-space optical links and of novel techniques for probing dynamical processes in complex systems, as chiral molecules. Such high switching speeds can only be reached with an all-optical paradigm, i.e., engineering active platforms capable of controlling light polarization via ultrashort laser pulses. Here we demonstrate giant modulation of dichroism and birefringence in an all-dielectric metasurface, achieved at low fluences of the optical control beam. This performance, which leverages the many degrees of freedom offered by all-dielectric active metasurfaces, is obtained by combining a high-quality factor nonlocal resonance with the giant third-order optical nonlinearity dictated by photogenerated hot carriers at the semiconductor band edge., (© 2024. The Author(s).)

Published

2024

43. Optical nonlinearity goes ultrafast in 2D semiconductor-based nanocavities.

Author

Genco A and Cerullo G

Abstract

Hybrid systems of silver nanodisks strongly coupled to monolayer tungsten-disulfide (WS 2 ) show giant room-temperature nonlinearity due to their deeply sub-wavelength localized nature, resulting in ultrafast modifications of nonlinear absorption in a solid-state system., (© 2022. The Author(s).)

Published

2022

44. Synchronization-free all-solid-state laser system for stimulated Raman scattering microscopy.

Author

Steinle T, Kumar V, Floess M, Steinmann A, Marangoni M, Koch C, Wege C, Cerullo G, and Giessen H

Abstract

We introduce an extremely simple and highly stable system for stimulated Raman scattering (SRS) microscopy. An 8-W, 450-fs Yb:KGW bulk oscillator with 41 MHz repetition rate pumps an optical parametric amplifier, which is seeded by a cw tunable external cavity diode laser. The output radiation is frequency doubled in a long PPLN crystal and generates 1.5-ps long narrowband pump pulses that are tunable between 760 and 820 nm with >50 mW average power. Part of the oscillator output is sent through an etalon and creates Stokes pulses with 100 mW average power and 1.7 ps duration. We demonstrate SRS microscopy at a 30-μs pixel dwell time with high chemical contrast, signal-to-noise ratio in excess of 45 and no need for balanced detection, thanks to the favorable noise properties of the bulk solid-state system. Cw seeding intrinsically ensures low spectral drift. We discuss its application to chemical contrast microscopy of freshly prepared plant tissue sections at different vibrational bands., Competing Interests: The authors declare no conflict of interest.

Published

2016