"Kill Move Paradise" resonantly locates the unspeakable pain of that paradox.
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Like Ms. Parker's charred church fragments, this work delves into American history, but more legibly and resonantly.
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Critic's Pick A commission for the Royal Ballet, "Everyone Keeps Me" creates a strange, resonantly poetic world.
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But in theaters throughout this city, other productions were issuing similar pleas, more obliquely perhaps but just as resonantly.
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Exercise also, and perhaps most resonantly, augments adult neurogenesis, which is the creation of new brain cells in an already mature brain.
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A noise of primal desperation emanates from each of the two suspenseful dramas that have been resonantly paired in repertory by Theater for a New Audience.
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Quignard muses that some early weapons doubled as instruments: a string stretched across a bow could be resonantly plucked or it could send an arrow through the air.
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Resonantly, perhaps, Mr. Ramírez has received a commission from the United States General Services Administration to create a work for the expanded Port of Entry in San Ysidro, Calif.
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And "Hungry," a work in which nothing much happens beyond some contemplative pre-dinner chatter, may well be the most resonantly topical and emotionally engaging play of this election year.
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But Hamilton (1872-1952), a suffragist writer whose works include the resonantly titled "Marriage as a Trade," knew that for many women, the road to the altar was paved with desperation.
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He has the advantage, though, of being able to use his entire body, even if he can't escape from that suspended hole, which resonantly brings to mind both womb and tomb.
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"It was so much more meaningful in the moment for me than I predicted, and it's been resonantly much more meaningful than for me afterward than I ever saw coming," he said.
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Pam Tanowitz's "Everyone Keeps Me," a new work for the Royal Ballet that premiered here on Thursday, has begun, and for 20 entrancing minutes, we are in her strange, resonantly poetic world.
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Giles, a founding member of We Need Diverse Books and two-time Edgar Award finalist, is in top form, weaving together the threads of his whodunit-and-why and resonantly depicting his characters' home and school lives.
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The laughter subsides; the play's flaws recede; and we are left with a resonantly ambiguous picture of the manner in which wars, and the tides of refugees they often result in, have an indelible impact on individual lives.
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Despite the package's brief English-language summaries, I do find myself wondering what this manifestly thoughtful, resonantly tender singer is telling Bambara speakers—he sings with such distinction that I'd like a chance to feel the full force of his message.
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And it has seldom been played as quietly or as resonantly as it is in "The Royale," Marco Ramirez's absorbing drama about a black prizefighter in the early 20th century, which opened on Monday night at the Mitzi E. Newhouse Theater at Lincoln Center.
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And she's broadcasting her message not in scripted bits, but in her own feisty voice—the one that called so resonantly last week for impeachment proceedings against Trump, while Bernie Sanders avoided the question, Pete Buttigieg punted, and Kamala Harris won the gold medal for mealy-mouthedness ("I think that there is definitely a conversation to be had on that subject, but first I want to hear from Bob Mueller") before reversing course on Monday.
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The red arrow is a spin in the Bloch sphere which precesses in the laboratory frame due to a static magnetic field. In the rotating frame the spin remains still until a resonantly oscillating magnetic field drives magnetic resonance.
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Faraday observed standing waves on the surface of a liquid in a vibrating container.Alwyn Scott (ed), Encyclopedia of Nonlinear Science, p. 683, Routledge, 2006 .Theodore Y. Wu, "Stability of nonlinear waves resonantly sustained", Nonlinear Instability of Nonparallel Flows: IUTAM Symposium Potsdam, New York, p.
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The schematic of IR-MALDESI imaging source Matrix-assisted laser desorption electrospray ionization (MALDESI) is an ambient ionization technique which combines the benefits of electrospray ionization (ESI) and matrix-assisted laser desorption/ionization (MALDI). MALDESI was introduced in 2006 as the first hybrid ionization source combining laser ablation and electrospray post- ionization using a resonantly excited matrix (endogenous or exogenous). An infrared (IR) or ultraviolet (UV) laser can be utilized in MALDESI in order to resonantly excite an endogenous or exogenous matrix. The term ‘matrix’ refers to any molecule that is present in large excess and absorbs the energy of the laser, facilitating desorption of analyte molecules.
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The length of currently available proton bunches though exceeds this value significantly. AWAKE profits form the seeded self-modulation (SSM) of the proton bunch travelling through the plasma, which divides the long proton bunch into shorts micro-bunches with the length of the plasma wavelength that can drive the wakefield resonantly.
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NRA can also be used non-resonantly (of course, RBS is non- resonant). For example, deuterium can easily be profiled with a 3He beam without changing the incident energy by using the :3He + D = α \+ p + 18.353 MeV reaction, usually written 2H(3He,p)α. The energy of the fast proton detected depends on the depth of the deuterium atom in the sample.
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Luminescence of Es3+ ions was however observed in inorganic hydrochloric acid solutions as well as in organic solution with di(2-ethylhexyl)orthophosphoric acid. It shows a broad peak at about 1064 nanometers (half-width about 100 nm) which can be resonantly excited by green light (ca. 495 nm wavelength). The luminescence has a lifetime of several microseconds and the quantum yield below 0.1%.
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"Proposal for the measurement of the resonant Stark effect by photon correlation techniques". Journal of Physics B: Atomic and Molecular Physics 9 (4): L43. doi:10.1088/0022-3700/9/4/001 More processes may occur when a substance undergoes internal energy transitions before re- emitting the energy from the absorption event. Electrons change energy states by either resonantly gaining energy from absorption of a photon or losing energy by emitting photons.
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The purpose of the cavity is to select optical frequencies (e.g. to suppress the Stokes process) that resonantly enhance the light intensity and to enhance the sensitivity to the mechanical vibrations. The setup displays features of a true two-way interaction between light and mechanics, which is in contrast to optical tweezers, optical lattices, or vibrational spectroscopy, where the light field controls the mechanics (or vice versa) but the loop is not closed.
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In particular, difference frequency mixing two photons of an (193 nm) excimer laser with a tunable visible or near IR laser in hydrogen or krypton provides resonantly enhanced tunable VUV covering from 100 nm to 200 nm. Practically, the lack of suitable gas/vapor cell window materials above the lithium fluoride cut-off wavelength limit the tuning range to longer than about 110 nm. Tunable VUV wavelengths down to 75 nm was achieved using window-free configurations.
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Since SRS is a resonantly enhanced process, its signal is several orders of magnitude higher than that of a spontaneous Raman scattering, making it a much more efficient spectroscopic tool. Furthermore, the signal intensity of SRS is also several orders of magnitude higher than another highly common sort of spectroscopy – coherent anti-Stokes Raman spectroscopy. SRS involves only two photons, as opposed to the latter, which involves three photons. Thus, the occurrence of SRS is more probable and results with a higher signal.
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It upshifts for acceptors and downshifts for donors. Lineshape of G− is highly sensitive to whether SWNT is metallic (Breit-Wigner-Fano lineshape) or semiconducting (Lorentzian lineshape). The disorder-related mode (D peak) is a phonon mode at 1300 cm−1 and involves the resonantly enhanced scattering of an electron via phonon emission by a defect that breaks the basic symmetry of the graphene plane. This mode corresponds to the conversion of a sp2-hybridized carbon to a sp3-hybridized on the surface.
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An alternative is the use of a laser beam to generate a reference light source (a laser guide star, LGS) in the atmosphere. There are two kinds of LGSs: Rayleigh guide stars and sodium guide stars. Rayleigh guide stars work by propagating a laser, usually at near ultraviolet wavelengths, and detecting the backscatter from air at altitudes between . Sodium guide stars use laser light at 589 nm to resonantly excite sodium atoms higher in the mesosphere and thermosphere, which then appear to "glow".
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To obtain the free modes, a canonical transformation can be applied that removes all modes that are not free (that do not engage in resonant interactions). Doing so for the FPUT system results in oscillator modes that have a four-wave interaction (the three-wave interaction has been removed). These quartets do interact resonantly, i.e. do mix together four modes at a time. Oddly, though, when the FPUT chain has only 16, 32 or 64 nodes in it, these quartets are isolated from one-another.
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Samples could be desorbed from the surface without using matrices. The technique called electrospray-assisted laser desorption/ionization (ELDI) uses an ultraviolet laser to form ions by irradiating the sample directly, without using any matrices, for ion formation through interaction with the electrospray plume. The infrared laser version of ELDI has been called laser ablation electrospray ionization (LAESI). IR- MALDESI differs from ELDI since the laser is used to resonantly excite the endogenous or exogenous matrix in order to enhance the desorption of sample from the surface.
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A plasma can be seen as an ensemble of oscillators with a frequency of the plasma frequency ωp2=4nee2/εme, with ne the plasma electron density, me the electron mass and e the elementary charge. To excite those oscillators resonantly, the driver must contain a Fourier component close to the plasma frequency ωp. Moreover, the length of the drive bunch should be close to the plasma wavelength λp (=2πc/ωp with c is the speed of light). For AWAKE like density (ne ≈ 1•1015 cm−3) this corresponds to approximately λp ≈ 1 mm.
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William Conrad in 1952, when Matt Dillon was created on radio Matt Dillon was played on radio by William Conrad and on TV by James Arness. Two versions of the same pilot episode titled "Mark Dillon Goes to Gouge Eye" were produced with two different actors, Rye Billsbury and Howard Culver, playing Marshal "Mark" Dillon as the lead, not yet played by Conrad. Conrad was one of the last actors to audition for the role of Marshal Dillon. With a resonantly powerful and distinctive voice, Conrad was already one of radio's busiest actors.
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A recently developed technique, acoustic force spectroscopy (AFS), allows the force manipulation of hundreds of single-molecules and single-cells in parallel, providing high experimental throughput. In this technique, a piezo element resonantly excites planar acoustic waves over a microfluidic chip. The generated acoustic waves are capable of exerting forces on microspheres with different density than the surrounding medium. Biomolecules, such as DNA, RNA or proteins, can be individually tethered between the microspheres and a surface and then probed by the acoustic forces exerted by the piezo sensor.
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Mössbauer found that a significant fraction of emission and absorption events will be recoil- free, which is quantified using the Lamb–Mössbauer factor.Gütlich, J. M.; The Principle of the Mössbauer Effect and Basic Concepts of Mössbauer Spectrometry . This fact is what makes Mössbauer spectroscopy possible, because it means that gamma rays emitted by one nucleus can be resonantly absorbed by a sample containing nuclei of the same isotope, and this absorption can be measured. The recoil fraction of the Mössbauer absorption is analyzed by nuclear resonance vibrational spectroscopy.
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Photofragment ion imaging or, more generally, Product Imaging is an experimental technique for making measurements of the velocity of product molecules or particles following a chemical reaction or the photodissociation of a parent molecule. The method uses a two-dimensional detector, usually a microchannel plate, to record the arrival positions of state-selected ions created by resonantly enhanced multi-photon ionization (REMPI). The first experiment using photofragment ion imaging was performed by David W Chandler and Paul L Houston in 1987 on the phototodissociation dynamics of methyl iodide (iodomethane, CH3I).
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Isomers in solids can emit a sharp component superimposed on the Doppler-broadened background; this is called the Mössbauer effect. This recoilless radiation exhibits a sharp line on top of the Doppler-broadened background that is only slightly shifted from the center of the background. With the inhomogeneous background removed, and a sharp line, it would seem that we have the conditions for gain. But other difficulties that would degrade gain are unexcited states that would resonantly absorb the radiation, opaque impurities, and loss in propagation through the crystal in which the active nuclei are embedded.
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The original MALDESI design was implemented using organic matrices, similar to those used in MALDI, along with a UV laser. The more recent MALDESI source uses a thin layer of ice as the energy-absorbing matrix that is resonantly excited using a mid-infrared (IR) laser. The IR-MALDESI source can be used for mass spectrometry imaging (MSI), a technique using MS data collected over the sample area to visualize the spatial distribution of specific analyte molecules. A versatile IR-MALDESI MSI source was designed and implemented, which is currently coupled to a high resolving power hybrid Quadrupole-Orbitrap mass spectrometer.
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His son described him as being "broad- shouldered and deep-chested," with "a big, finely-shaped head, a handsome profile, deep-set, light-brown eyes." Gelb, Barbara. "O'Neill's Father Shaped His Son's Vision", The New York Times, Theater Reviews, April 27, 1986 James had the kind of charm that communicated itself palpably across the footlights, and by the age of 24 he had already established a reputation among theater managers as a box-office draw, particularly with the ladies. But he was also working doggedly at his craft, ridding himself of all vestiges of brogue and learning to pitch his voice resonantly.
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The scientific community considers novelty theory to be pseudoscience. McKenna expressed "novelty" in a computer program which produces a waveform known as "timewave zero" or the "timewave". Based on McKenna's interpretation of the King Wen sequence of the I Ching, an ancient Chinese book on divination, the graph purports to show great periods of novelty corresponding with major shifts in humanity's biological and sociocultural evolution. He believed that the events of any given time are resonantly related to the events of other times, and chose the atomic bombing of Hiroshima as the basis for calculating his end date of November 2012.
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The > answer, supplied by Tsou Yen and his school, is that things in a category > "vibrate" resonantly together, as two identically-tuned lute strings will > vibrate together, and do so through the medium of ch'i, an invisible, > aethereal, vibrant substance that permeates the universe. (Major 1993: 34) The Huainanzi has two versions of the earlier Zhuangzi zither string resonance analogy. Both Chapter 6 and Chapter 11 omit the reference to Lu Ju and his disciple who attracted yang to light a fire and yin to make ice, and each account adds a different interpretation. The shorter version refers to the Dao's mysterious ineffability.
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When the difference in frequency between both photons (\omega_p-\omega_S) resembles that of a specific vibrational (or rotational) transition (\omega_ u) the occurrence of this transition is resonantly enhanced. In SRS, the signal is equivalent to changes in the intensity of the pump and Stokes beams. Employing a pump laser beam of a constant frequency and a Stokes laser beam of a scanned frequency (or vice versa) allows for the unraveling of the spectral fingerprint of the molecule. This spectral fingerprint differs from those obtained by other spectroscopy methods such as Rayleigh scattering as the Raman transitions confer to different exclusion rules than those that apply for Rayleigh transitions.
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Raman amplification is based on the stimulated Raman scattering (SRS) phenomenon, when a lower frequency 'signal' photon induces the inelastic scattering of a higher-frequency 'pump' photon in an optical medium in the nonlinear regime. As a result of this, another 'signal' photon is produced, with the surplus energy resonantly passed to the vibrational states of the medium. This process, as with other stimulated emission processes, allows all- optical amplification. Optical fiber is today mostly used as the nonlinear medium for SRS, for telecom purposes; in this case it is characterized by a resonance frequency downshift of ~11 THz (corresponding to a wavelength shift at ~1550 nm of ~90 nm).
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Optical ionization schemes are developed to produce element-selective ion source for various elements. Most of the elements of the periodic table have been resonantly ionized by using one of five major optical routes based on the principle of RIMS. The routes were formed by the absorption of two or three photons to achieve excitation and ionization and are provided on the basis of optically possible transitions between atomic levels in a process called the bound-bound transition. For an atom of the element to be promoted to a bound- continuum, the energies emitted from the photons must be within the energy range of the selected tunable lasers.
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In the X-ray region there is sufficient energy to probe changes in the electronic state (transitions between orbitals; this is in contrast with the optical region, where the energy loss is often due to changes in the state of the rotational or vibrational degrees of freedom). For instance, in the ultra soft X-ray region (below about 1 keV), crystal field excitations give rise to the energy loss. The photon-in-photon-out process may be thought of as a scattering event. When the x-ray energy corresponds to the binding energy of a core-level electron, this scattering process is resonantly enhanced by many orders of magnitude.
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The Mikheyev–Smirnov–Wolfenstein effect (often referred to as matter effect) is a particle physics process which can act to modify neutrino oscillations in matter. Works in 1978 and 1979 by American physicist Lincoln Wolfenstein led to understanding that the oscillation parameters of neutrinos are changed in matter. In 1985, the Soviet physicists Stanislav Mikheyev and Alexei Smirnov predicted that a slow decrease of the density of matter can resonantly enhance the neutrino mixing. Later in 1986, Stephen Parke of Fermilab, Hans Bethe of Cornell University, and S. Peter Rosen and James Gelb of Los Alamos National Laboratory provided analytic treatments of this effect.
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CARS is a third-order nonlinear optical process involving three laser beams: a pump beam of frequency ωp, a Stokes beam of frequency ωS and a probe beam at frequency ωpr. These beams interact with the sample and generate a coherent optical signal at the anti-Stokes frequency (ωpr+ωp-ωS). The latter is resonantly enhanced when the frequency difference between the pump and the Stokes beams (ωp-ωS) coincides with the frequency of a Raman resonance, which is the basis of the technique's intrinsic vibrational contrast mechanism. Coherent Stokes Raman spectroscopy (CSRS pronounced as "scissors") is closely related to Raman spectroscopy and lasing processes.
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" Many of them stated that the film is simply too amusing to be considered the worst film ever made, claiming that its ineptitude added to its charm. There were also claims that the director even managed to convey some interesting ideas. The Encyclopedia of Science Fiction, for instance, claims that in recent years "the film's reception modulated away from jovial mockery of its wanton indifference to normal professional standards of script, performance, and effects, in favour of a more nuanced appreciation of its dreamlike narrative assemblage of genre tropes, resonantly unspeakable dialogue, and irrepressible budgetary ingenuity.""Media : Plan 9 from Outer Space : SFE : Science Fiction Encyclopedia" Retrieved: July 17, 2017 As of 2011, Plan 9 had failed to place in the IMDb Bottom 100, a list compiled using average scores given by Internet Movie Database users,"Bottom 100.
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This process produces photoions which are extracted and directed towards an analytical facility such as a magnetic sector to be counted. This approach is extremely sensitive to atoms of the specified element so that the ionization efficiency is almost 100% and also elementally selective, due to the highly unlikely chance that other species will be resonantly ionized. To achieve high ionization efficiencies, monochromatic lasers with high instantaneous spectral power are used. Typical lasers being used include continuous-wave lasers with extremely high spectral purity and pulsed lasers for analyses involving limited atoms. Continuous-wave lasers however are often preferred to pulsed lasers due to the latter’s relatively low duty cycle since they can only produce photo ions during the brief later pulses, and the difficulty in reproducing results due to pulse-to-pulse jitters, laser beam drifting, and wavelength variations.
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