Your search keyword '"G A Carr"' showing total 141 results

1. Probing subwavelength in-plane anisotropy with antenna-assisted infrared nano-spectroscopy

Author

Ziheng Yao, Xinzhong Chen, Lukas Wehmeier, Suheng Xu, Yinming Shao, Zimeng Zeng, Fanwei Liu, Alexander S. Mcleod, Stephanie N. Gilbert Corder, Makoto Tsuneto, Wu Shi, Zihang Wang, Wenjun Zheng, Hans A. Bechtel, G. L. Carr, Michael C. Martin, Alex Zettl, D. N. Basov, Xi Chen, Lukas M. Eng, Susanne C. Kehr, and Mengkun Liu

Subjects

Science

Abstract

s-SNOM is a powerful tool, but it is less sensitive to in-plane variations. Here the authors present a method to improve this with a metallic microdisk antenna, which they demonstrate by probing in-plane phonon responses.

Published

2021

2. Infrared nano-spectroscopy of ferroelastic domain walls in hybrid improper ferroelectric Ca3Ti2O7

Author

K. A. Smith, E. A. Nowadnick, S. Fan, O. Khatib, S. J. Lim, B. Gao, N. C. Harms, S. N. Neal, J. K. Kirkland, M. C. Martin, C. J. Won, M. B. Raschke, S.-W. Cheong, C. J. Fennie, G. L. Carr, H. A. Bechtel, and J. L. Musfeldt

Subjects

Science

Abstract

Ferroic domain walls are nano-objects that are considered functional elements in future devices. Here, the authors study phonons across ferroelastic domain walls by synchrotron-based near-field infrared nano-spectroscopy and relate these changes to the order parameter which helps to understand domain wall dynamics.

Published

2019

3. A Pb isotope model for the Proterozoic of northern Australia with a focus on the McArthur Basin

Author

G. R. Carr, G. J. Denton, M. J. Korsch, J. M. Parr, L. A. Wyborn, and S-S Sun

Subjects

Earth and Planetary Sciences (miscellaneous), General Earth and Planetary Sciences

Published

2023

4. Science Goals and Mission Architecture of the Europa Lander Mission Concept

Author

K. P. Hand, C. B. Phillips, A. Murray, J. B. Garvin, E. H. Maize, R. G. Gibbs, G. Reeves, A. M. San Martin, G. H. Tan-Wang, J. Krajewski, K. Hurst, R. Crum, B. A. Kennedy, T. P. McElrath, J. C. Gallon, D. Sabahi, S. W. Thurman, B. Goldstein, P. Estabrook, S. W. Lee, J. A. Dooley, W. B. Brinckerhoff, K. S. Edgett, C. R. German, T. M. Hoehler, S. M. Hörst, J. I. Lunine, C. Paranicas, K. Nealson, D. E. Smith, A. S. Templeton, M. J. Russell, B. Schmidt, B. Christner, B. Ehlmann, A. Hayes, A. Rhoden, P. Willis, R. A. Yingst, K. Craft, M. E. Cameron, T. Nordheim, J. Pitesky, J. Scully, J. Hofgartner, S. W. Sell, K. J. Barltrop, J. Izraelevitz, E. J. Brandon, J. Seong, J.-P. Jones, J. Pasalic, K. J. Billings, J. P. Ruiz, R. V. Bugga, D. Graham, L. A. Arenas, D. Takeyama, M. Drummond, H. Aghazarian, A. J. Andersen, K. B. Andersen, E. W. Anderson, A. Babuscia, P. G. Backes, E. S. Bailey, D. Balentine, C. G. Ballard, D. F. Berisford, P. Bhandari, K. Blackwood, G. S. Bolotin, E. A. Bovre, J. Bowkett, K. T. Boykins, M. S. Bramble, T. M. Brice, P. Briggs, A. P. Brinkman, S. M. Brooks, B. B. Buffington, B. Burns, M. L. Cable, S. Campagnola, L. A. Cangahuala, G. A Carr, J. R. Casani, N. E. Chahat, B. K. Chamberlain-Simon, Y. Cheng, S. A. Chien, B. T. Cook, M. Cooper, M. DiNicola, B. Clement, Z. Dean, E. A. Cullimore, A. G. Curtis, J-P. de la Croix, P. Di Pasquale, E. M. Dodd, L. A. Dubord, J. A. Edlund, R. Ellyin, B. Emanuel, J. T. Foster, A. J. Ganino, G. J. Garner, M. T. Gibson, M. Gildner, K. J. Glazebrook, M. E. Greco, W. M. Green, S. J. Hatch, M. M. Hetzel, W. A. Hoey, A. E. Hofmann, R. Ionasescu, A. Jain, J. D. Jasper, J. R. Johannesen, G. K. Johnson, I. Jun, A. B. Katake, S. Y. Kim-Castet, D. I. Kim, W. Kim, E. F. Klonicki, B. Kobeissi, B. D. Kobie, J. Kochocki, M. Kokorowski, J. A. Kosberg, K. Kriechbaum, T. P. Kulkarni, R. L. Lam, D. F. Landau, M. A. Lattimore, S. L. Laubach, C. R. Lawler, G. Lim, J. Y Lin, T. E. Litwin, M. W. Lo, C. A. Logan, E. Maghasoudi, L. Mandrake, Y. Marchetti, E. Marteau, K. A. Maxwell, J. B. Mc Namee, O. Mcintyre, M. Meacham, J. P. Melko, J. Mueller, D. A. Muliere, A. Mysore, J. Nash, H. Ono, J. M. Parker, R. C. Perkins, A. E Petropoulos, A. Gaut, M. Y. Piette Gomez, R. P. Casillas, M. Preudhomme, G. Pyrzak, J. Rapinchuk, J. M. Ratliff, T. L. Ray, E. T. Roberts, K. Roffo, D. C. Roth, J. A. Russino, T. M. Schmidt, M. J. Schoppers, J. S. Senent, F. Serricchio, D. J. Sheldon, L. R. Shiraishi, J. Shirvanian, K. J. Siegel, G. Singh, A. R. Sirota, E. D. Skulsky, J. S. Stehly, N. J. Strange, S. U. Stevens, E. T. Sunada, S. P. Tepsuporn, L. P. C. Tosi, N. Trawny, I. Uchenik, V. Verma, R. A. Volpe, C. T. Wagner, D. Wang, R. G. Willson, J. L. Wolff, A. T. Wong, A. K. Zimmer, K. G. Sukhatme, K. A. Bago, Y. Chen, A. M. Deardorff, R. S. Kuch, C. Lim, M. L. Syvertson, G. A. Arakaki, A. Avila, K. J. DeBruin, A. Frick, J. R. Harris, M. C. Heverly, J. M. Kawata, S.-K. Kim, D. M. Kipp, J. Murphy, M. W. Smith, M. D. Spaulding, R. Thakker, N. Z. Warner, C. R. Yahnker, M. E. Young, T. Magner, D. Adams, P. Bedini, L. Mehr, C. Sheldon, S. Vernon, V. Bailey, M. Briere, M. Butler, A. Davis, S. Ensor, M. Gannon, A. Haapala-Chalk, T. Hartka, M. Holdridge, A. Hong, J. Hunt, J. Iskow, F. Kahler, K. Murray, D. Napolillo, M. Norkus, R. Pfisterer, J. Porter, D. Roth, P. Schwartz, L. Wolfarth, E. H. Cardiff, E. W. Grob, J. R. Adam, E. Betts, J. Norwood, M. M. Heller, T. Voskuilen, P. Sakievich, L. Gray, D. J. Hansen, K. W. Irick, J. C. Hewson, J. Lamb, S. C. Stacy, C. M. Brotherton, A. S Tappan, D. Benally, H. Thigpen, E. Ortiz, D. Sandoval, A. M. Ison, M. Warren, P. G. Stromberg, P. M. Thelen, B. Blasy, P. Nandy, A. W. Haddad, L. B. Trujillo, T. H. Wiseley, S. A. Bell, N. P. Teske, C. Post, L. Torres-Castro, C. Grosso, and M. Wasiolek

Published

2022

5. Infrared Nano-Imaging of Dirac Magnetoexcitons in Graphene

Author

Michael Dapolito, Makoto Tsuneto, Wenjun Zheng, Lukas Wehmeier, Suheng Xu, Xinzhong Chen, Jiacheng Sun, Zengyi Du, Yinming Shao, Ran Jing, Shuai Zhang, Adrien Bercher, Yinan Dong, Dorri Halbertal, Vibhu Ravindran, Zijian Zhou, Adrian Gozar, G. L. Carr, Qiang Li, Alexey Kuzmenko, Michael Fogler, Dmitri Basov, Xu Du, and Mengkun Liu

Abstract

Magnetic fields can have profound effects on the motion of electrons in quantum materials. Two-dimensional (2D) electron systems subject to strong magnetic fields are expected to exhibit quantized Hall conductivity, chiral edge currents, and distinctive collective modes referred to as magnetoplasmons and magnetoexcitons. Generating these propagating collective modes in charge-neutral samples and imaging them at their native nanometer length scales have thus far been experimentally elusive tasks. In this study, we visualize propagating magenetoexction polaritons at their native length scales and report their magnetic-field-tunable dispersions in near-charge-neutral graphene. Imaging of these collective modes and their associated opto-electrical responses at the sample edges is enabled by innovations to our cryogenic near-field optical microscope that allows us to nano-image the optical responses of 2D materials in magnetic fields up to 7 Tesla. This novel nano-magneto-optics approach represents a new paradigm for exploring and manipulating magnetopolaritons in specimens with low carrier doping via harnessing high magnetic fields.

Published

2023

6. Cost-Effectiveness of Neonatal Hearing Screening Programs

Author

André Goedegebure, Harry J. de Koning, Allison R. Mackey, Birkena Qirjazi, G. L. Carr, Andrea M. L. Bussé, Frea Sloot, Mirjam L Verkleij, Eveline A.M. Heijnsdijk, Hans L.J. Hoeve, Inger Uhlén, Public Health, Ophthalmology, and Otorhinolaryngology and Head and Neck Surgery

Subjects

Neonatal Hearing Impairment, medicine.medical_specialty, Referral, Cost effectiveness, Cost-Benefit Analysis, Otoacoustic Emissions, Spontaneous, MEDLINE, Audiology, 01 natural sciences, Hearing screening, 03 medical and health sciences, Speech and Hearing, Neonatal Screening, 0302 clinical medicine, SDG 3 - Good Health and Well-being, 0103 physical sciences, Evoked Potentials, Auditory, Brain Stem, Humans, Medicine, 030223 otorhinolaryngology, 010301 acoustics, Protocol (science), Patient-specific modeling, business.industry, Hearing Tests, Infant, Newborn, Hearing loss, 3. Good health, Test (assessment), Otorhinolaryngology, Micro simulation, ComputingMethodologies_DOCUMENTANDTEXTPROCESSING, business, Research Article

Abstract

Supplemental Digital Content is available in the text., Objectives: Early detection of neonatal hearing impairment moderates the negative effects on speech and language development. Universal neonatal hearing screening protocols vary in tests used, timing of testing and the number of stages of screening. This study estimated the cost-effectiveness of various protocols in the preparation of implementation of neonatal hearing screening in Albania. Design: A micro-simulation model was developed using input on demography, natural history of neonatal hearing impairment, screening characteristics and treatment. Parameter values were derived from a review of the literature and expert opinion. We simulated multiple protocols using otoacoustic emissions (OAE) and automated auditory brainstem response (aABR), varying the test type, timing and number of stages. Cost-effectiveness was analyzed over a life-time horizon. Results: The two best protocols for well infants were OAE followed by aABR (i.e., two-stage OAE-aABR) testing in the maternity ward and single-aABR testing. Incremental cost-effectiveness ratios were €4181 and €78,077 per quality-adjusted life-year gained, respectively. Single-aABR screening led to more cases being detected compared to a two-stage screening program. However, it also resulted in higher referral rates, which increased the total costs of diagnostics. Multi-staged screening decreased referral rates but may increase the number of missed cases due to false-negative test results and nonattendance. Conclusions: Only the 2-stage OAE-aABR (maternity ward) protocol was below the willingness-to-pay threshold of €10,413 for Albania, as suggested by the World Health Organization, and was found to be cost-effective. This study is among the few to assess neonatal hearing screening programs over a life-time horizon and the first to predict the cost-effectiveness of multiple screening scenarios.

Published

2021

7. Nano-Resolved Current-Induced Insulator-Metal Transition in the Mott Insulator Ca_{2}RuO_{4}

Author

Jiawei Zhang, Alexander S. McLeod, Qiang Han, Xinzhong Chen, Hans A. Bechtel, Ziheng Yao, S. N. Gilbert Corder, Thomas Ciavatti, Tiger H. Tao, Meigan Aronson, G. L. Carr, Michael C. Martin, Chanchal Sow, Shingo Yonezawa, Fumihiko Nakamura, Ichiro Terasaki, D. N. Basov, Andrew J. Millis, Yoshiteru Maeno, and Mengkun Liu

Subjects

Physics, QC1-999

Abstract

The Mott insulator Ca_{2}RuO_{4} is the subject of much recent attention following reports of emergent nonequilibrium steady states driven by applied electric fields or currents. In this paper, we carry out infrared nano-imaging and optical-microscopy measurements on bulk single crystal Ca_{2}RuO_{4} under conditions of steady current flow to obtain insight into the current-driven insulator-to-metal transition. We observe macroscopic growth of the current-induced metallic phase, with nucleation regions for metal and insulator phases determined by the polarity of the current flow. A remarkable metal-insulator-metal microstripe pattern is observed at the phase front separating metal and insulator phases. The microstripes have orientations tied uniquely to the crystallographic axes, implying a strong coupling of the electronic transition to lattice degrees of freedom. Theoretical modeling further illustrates the importance of the current density and confirms a submicron-thick surface metallic layer at the phase front of the bulk metallic phase. Our work confirms that the electrically induced metallic phase is nonfilamentary and is not driven by Joule heating, revealing remarkable new characteristics of electrically induced insulator-metal transitions occurring in functional correlated oxides.

Published

2019

8. Assessment of hearing screening programmes across 47 countries or regions III: provision of childhood hearing screening after the newborn period

Author

G. L. Carr, Inger Uhlén, André Goedegebure, Hans L. J. Hoeve, Andrea M. L. Bussé, Allison R. Mackey, Huibert J. Simonsz, Ophthalmology, and Otorhinolaryngology and Head and Neck Surgery

Subjects

Linguistics and Language, medicine.medical_specialty, Early detection, Audiology, Language and Linguistics, Hearing screening, 03 medical and health sciences, Speech and Hearing, Neonatal Screening, 0302 clinical medicine, Hearing, Surveys and Questionnaires, otorhinolaryngologic diseases, Humans, Mass Screening, Medicine, 030223 otorhinolaryngology, Referral and Consultation, integumentary system, business.industry, Hearing Tests, Infant, Newborn, 3. Good health, Child, Preschool, Audiometry, Pure-Tone, business, 030217 neurology & neurosurgery, Period (music)

Abstract

Objective: To inventory provision and features of childhood hearing screening after the newborn period (CHS), primarily in Europe. Design: From each participating country or region, experts provided information through an extensive questionnaire: implementation year, age at screening, test method, pass criteria, screening location, screener profession, and quality indicators: coverage, referral, follow-up and detection rates, supplemented by literature sources. Study sample: Forty-two European countries or regions, plus Russia, Malawi, Rwanda, India, and China. Results: CHS was performed universally with pure-tone audiometry screening (PTS) in 17 countries or regions, whereas non-universal CHS was performed in eight with PTS or whisper tests. All participating countries with universal PTS had newborn hearing screening. Coverage rate was provided from three countries, detection rate from one, and referral and follow-up rate from two. In four countries, universal PTS was performed at two ages. Earliest universal PTS was performed in a (pre)school setting by nurses (n = 9, median age: 5 years, range: 3–7), in a healthcare setting by doctors and nurses (n = 7, median age: 4.5 years, range: 4–7), or in both (n = 1). Conclusions: Within universal CHS, PTS was mostly performed at 4–6 years by nurses. Insufficient collection of data and monitoring with quality indicators impedes evaluation of screening.

Published

2021

9. THz Near-Field Imaging of Extreme Subwavelength Metal Structures

Author

Michael C. Martin, Hans A. Bechtel, Shu Chen, Xinlin Ye, Elizaveta Nikulina, Guanjun You, Xiao Liu, Xinzhong Chen, Xiangdong Guo, Hai Hu, Yiming Zhu, Rainer Hillenbrand, Qing Dai, Songlin Zhuang, Qing Hu, Mengkun Liu, G. Lawrence Carr, and Ziheng Yao

Subjects

Nanostructure, Materials science, Terahertz radiation, Schottky diodes, FOS: Physical sciences, Optical Physics, Applied Physics (physics.app-ph), 02 engineering and technology, 01 natural sciences, law.invention, 010309 optics, Metal, Optical microscope, law, 0103 physical sciences, Electrical and Electronic Engineering, Electrical conductor, Image resolution, Ground plane, Quantum Physics, Range (particle radiation), business.industry, near-field, Physics - Applied Physics, 021001 nanoscience & nanotechnology, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, scattering-type scanning near-field optical microscopy, nanoimaging, visual_art, visual_art.visual_art_medium, Optoelectronics, THz, 0210 nano-technology, business, Optics (physics.optics), Physics - Optics, Biotechnology

Abstract

Modern scattering-type scanning near-field optical microscopy (s-SNOM) has become an indispensable tool in material research. However, as the s-SNOM technique marches into the far-infrared (IR) and terahertz (THz) regimes, emerging experiments sometimes produce puzzling results. For example, "anomalies" in the near-field optical contrast have been widely reported. In this Letter, we systematically investigate a series of extreme subwavelength metallic nanostructures via s-SNOM near-field imaging in the GHz to THz frequency range. We find that the near-field material contrast is greatly impacted by the lateral size of the nanostructure, while the spatial resolution is practically independent of it. The contrast is also strongly affected by the connectivity of the metallic structures to a larger metallic "ground plane". The observed effect can be largely explained by a quasi-electrostatic analysis. We also compare the THz s-SNOM results to those of the mid-IR regime, where the size-dependence becomes significant only for smaller structures. Our results reveal that the quantitative analysis of the near-field optical material contrasts in the long-wavelength regime requires a careful assessment of the size and configuration of metallic (optically conductive) structures.

Published

2020

10. Hybrid Machine Learning for Scanning Near-field Optical Spectroscopy

Author

G. L. Carr, Xinzhong Chen, Ziheng Yao, Alexander McLeod, Suheng Xu, Dmitri Basov, Y Zhao, Michael C. Martin, Hans A. Bechtel, S. N. Gilbert Corder, Michael M. Fogler, Mengkun Liu, Stefan G. Stanciu, and Makoto Tsuneto

Subjects

Physics - Instrumentation and Detectors, hybrid neural network, FOS: Physical sciences, Near and far field, Bioengineering, Optical Physics, Signal, supervised learning, Hybrid neural network, physics.data-an, Scanning probe microscopy, near-field optics, nano-FTIR, Electrical and Electronic Engineering, physics.ins-det, Physics, Quantum Physics, Artificial neural network, GRASP, Process (computing), s-SNOM, Instrumentation and Detectors (physics.ins-det), Sample (graphics), Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Physics - Data Analysis, Statistics and Probability, physics.optics, Algorithm, Data Analysis, Statistics and Probability (physics.data-an), Biotechnology, Optics (physics.optics), Physics - Optics

Abstract

Author(s): Chen, X; Yao, Z; Xu, S; McLeod, AS; Gilbert Corder, SN; Zhao, Y; Tsuneto, M; Bechtel, HA; Martin, MC; Carr, GL; Fogler, MM; Stanciu, SG; Basov, DN; Liu, M | Abstract: The underlying physics behind an experimental observation often lacks a simple analytical description. This is especially the case for scanning probe microscopy techniques, where the interaction between the probe and the sample is nontrivial. Realistic modeling to include the exact details of the probe is widely acknowledged as a challenge. Due to various complexity constraints, the probe is often only approximated in a simplified geometry, leading to a source for modeling inconsistencies. On the other hand, a well-trained artificial neural network based on real data can grasp the hidden correlation between the signal and the sample properties, circumventing the explicit probe modeling process. In this work we show that, via a combination of model calculation and experimental data acquisition, a physics-infused hybrid neural network can predict the probe-sample interaction in the widely used scattering-type scanning near-field optical microscope. This hybrid network provides a long-sought solution for accurate extraction of material properties from tip-specific raw data. The methodology can be extended to other scanning probe microscopy techniques as well as other data-oriented physical problems in general.

Published

2021

11. IMPROVED HYPHAL GROWTH OF TWO SPECIES OF VESICULAR-ARBUSCULAR MYCORRHIZAL FUNGI IN THE PRESENCE OF SUSPENSION-CULTURED PLANT CELLS

Author

G. R. Carr, Michael G. K. Jones, M. A. Hinkley, F. Le Tacon, Christine M. Hepper, and E. Thomas

Subjects

Hyphal growth, biology, Physiology, Plant Sciences, Plant Science, Solanum tuberosum, biology.organism_classification, Plant cell, Chlamydospore, Botany, Medicago sativa, Mycorrhiza, Phycomycetes, Glomus

Abstract

Summary Conditions required for the combined culture of either Glomus caledonium (Nicol. &Gerd.) Trappe &Gerdemann or Glomus mosseae (Nicol. &Gerd.) Gerdemann &Trappe with suspension-cultured plant cells have been investigated. Sucrose levels (0.05 to 0.5%, w/v) lower than those used for growth of plant cells were optimal for hyphal growth of both G. caledonium and G. mosseae. In vitro hyphal growth from chlamydospores of G. caledonium was stimulated by addition of cells of wheat (Triticum aestivum L. cv. Maris Butler), lucerne (Medicago sativa L. cv. Europ) and potato (Solanum tuberosum L. cv. Maris Piper). The presence of wheat cells similarly stimulated hyphal growth from chlamydospores of G. mosseae. Further tests on the effect of lucerne cells on G. caledonium indicated that a volatile substance was involved in the improvement of hyphal growth.

Published

2021

12. Assessment of hearing screening programmes across 47 countries or regions II: coverage, referral, follow-up and detection rates from newborn hearing screening

Author

G. L. Carr, André Goedegebure, Allison R. Mackey, Inger Uhlén, Huibert J. Simonsz, Hans L. J. Hoeve, Andrea M. L. Bussé, Ophthalmology, and Otorhinolaryngology and Head and Neck Surgery

Subjects

Linguistics and Language, medicine.medical_specialty, Referral, Otoacoustic Emissions, Spontaneous, Early detection, Audiology, Language and Linguistics, Hearing screening, 03 medical and health sciences, Speech and Hearing, Neonatal Screening, 0302 clinical medicine, Evoked Potentials, Auditory, Brain Stem, otorhinolaryngologic diseases, medicine, Humans, 030223 otorhinolaryngology, Referral and Consultation, health care economics and organizations, Protocol (science), business.industry, Hearing Tests, Infant, Newborn, Infant, 3. Good health, Emergency medicine, Performance indicator, Detection rate, business, 030217 neurology & neurosurgery, Follow-Up Studies

Abstract

Objectives: To assess the performance of newborn hearing screening (NHS) programmes, through selected quality measures and their relationship to protocol design. Design: NHS coverage, referral, follow-up and detection rates were aggregated. Referral rates were compared to age at screening step 1, number of steps, and test method: OAE or aABR. Study sample: A questionnaire on existing hearing screening was completed by experts from countries in Europe, plus Russia, Malawi, Rwanda, India and China. Results: Out of 47 countries or regions, NHS coverage rates were reported from 26, referral rates from 23, follow up from 12 and detection rates from 13. Median coverage rate for step 1 was 96%. Referral rate from step 1 was 6–22% where screening may be performed 24 h, and 4% for >72 h. Referral rates to diagnostic assessment averaged 2.1% after one to two steps using OAE only, 1.7% after two steps including aABR, and 0.8% after three to four steps including aABR. Median detection rate for bilateral permanent hearing impairment ≥40dB was 1 per 1000 infants. Conclusion: Referral rates were related to age, test method and number of screening steps. Quality measures were not available for many NHS programmes.

Published

2021

13. Assessment of hearing screening programmes across 47 countries or regions I: provision of newborn hearing screening

Author

André Goedegebure, Hans L. J. Hoeve, Andrea M. L. Bussé, G. L. Carr, Inger Uhlén, Huibert J. Simonsz, and Allison R. Mackey

Subjects

Linguistics and Language, medicine.medical_specialty, business.industry, Hearing Tests, Otoacoustic Emissions, Spontaneous, Infant, Newborn, Infant, Audiology, Language and Linguistics, Hearing screening, 03 medical and health sciences, Speech and Hearing, 0302 clinical medicine, Neonatal Screening, Pregnancy, 030225 pediatrics, Surveys and Questionnaires, Evoked Potentials, Auditory, Brain Stem, Medicine, Humans, Female, 030223 otorhinolaryngology, business, health care economics and organizations

Abstract

Newborn hearing screening (NHS) varies regarding number and type of tests, location, age, professionals and funding. We compared the provision of existing screening programmes.A questionnaire containing nine domains: demography, administration, existing screening, coverage, tests, diagnosis, treatment, cost and adverse effects, was presented to hearing screening experts. Responses were verified. Clusters were identified based on number of screening steps and use of OAE or aABR, either for all infants or for well and high-risk infants (dual-protocol).Fifty-two experts completed the questionnaire sufficiently: 40 European countries, Russia, Malawi, Rwanda, India and China.It took considerable effort to find experts for all countries with sufficient time and knowledge. Data essential for evaluation are often not collected. Infants are first screened in maternity wards in most countries. Human development index and health expenditure were high among countries with dual protocols, three screening steps, including aABR, and low among countries without NHS and countries using OAE for all infants. Nationwide implementation of NHS took 6 years, on average.The extent and complexity of NHS programmes are primarily related to health expenditure and HDI. Data collection should be improved to facilitate comparison of NHS programmes across borders.

Published

2021

14. Symmetry crossover in layered MPS3 complexes (M=Mn, Fe, Ni) via near-field infrared spectroscopy

Author

Heung-Sik Kim, G. L. Carr, David Vanderbilt, K. A. Smith, Kristjan Haule, Kenneth R. O'Neal, Sabine N. Neal, Hans A. Bechtel, Janice L. Musfeldt, D. G. Mandrus, and Amanda Haglund

Subjects

Physics, Condensed matter physics, Rotational symmetry, Infrared spectroscopy, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Synchrotron, law.invention, Metal, Local symmetry, law, visual_art, 0103 physical sciences, Monolayer, visual_art.visual_art_medium, Symmetry (geometry), 010306 general physics, 0210 nano-technology, Rotation (mathematics)

Abstract

Author(s): Neal, SN; Kim, HS; O'Neal, KR; Haglund, AV; Smith, KA; Mandrus, DG; Bechtel, HA; Carr, GL; Haule, K; Vanderbilt, D; Musfeldt, JL | Abstract: We employ synchrotron-based near-field infrared spectroscopy to reveal the vibrational properties of bulk, few-sheet, and single-sheet members of the MPS3 (M=Mn, Fe, Ni) family of materials and compare our findings with complementary lattice dynamics calculations. MnPS3 and the Fe analog are similar in terms of their symmetry crossovers, from C2/m to P3¯1m, as the monolayer is approached. These states differ as to the presence of a C3 rotation around the metal center. On the other hand, NiPS3 does not show a symmetry crossover, and the lack of a Bu symmetry mode near 450 cm-1 suggests that C3 rotational symmetry is already present, even in the bulk material. We discuss these findings in terms of local symmetry and temperature effects as well as the curious relationship between these symmetry transformations and those that take place under pressure.

Published

2020

15. Global Burden of Childhood Epilepsy, Intellectual Disability, and Sensory Impairments

Author

Felix Akpojene Ogbo, Donald Wertlieb, Petrus J. de Vries, Cecilia Breinbauer, Charles R. Newton, Angelina Kakooza-Mwesige, Nem-Yun Boo, Nihad A. Almasri, Melissa Gladstone, Maureen Samms-Vaughan, Sophia Backhaus, Andrew N Williams, Vijaya Kancherla, G. L. Carr, Scott M. Wright, Amina Abubakar, Jalal Arabloo, Adrian Davis, Narendra K. Arora, Ricardo Halpern, Brad D. Berman, M. K. C. Nair, Chiara Servili, Tracey Smythe, Christie del Castillo-Hegyi, Jacob Olusegun Olusanya, Amira Shaheen, Mphelekedzeni C. Mulaudzi, Bolajoko O. Olusanya, Nicholas J Kassebaum, Ashok Pandey, Helen E Olsen, Rosa A. Hoekstra, Hannah Kuper, Aziz Eftekhari, and (GRDDC), Global Research on Developmental Disabilities Collaborators

Subjects

Male, Gerontology, Adolescent, Hearing loss, MEDLINE, Developing country, Blindness, Article, Global Burden of Disease, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Intellectual Disability, 030225 pediatrics, Intervention (counseling), Intellectual disability, Prevalence, medicine, Humans, Disabled Persons, Young adult, Hearing Loss, Child, Epilepsy, business.industry, Infant, medicine.disease, Systematic review, Child, Preschool, Pediatrics, Perinatology and Child Health, Female, medicine.symptom, business, Cohort study

Abstract

BACKGROUND: Estimates of children and adolescents with disabilities worldwide are needed to inform global intervention under the disability-inclusive provisions of the Sustainable Development Goals. We sought to update the most widely reported estimate of 93 million children METHODS: We analyzed Global Burden of Disease Study 2017 data on the prevalence of childhood epilepsy, intellectual disability, and vision or hearing loss and on years lived with disability (YLD) derived from systematic reviews, health surveys, hospital and claims databases, cohort studies, and disease-specific registries. Point estimates of the prevalence and YLD and the 95% uncertainty intervals (UIs) around the estimates were assessed. RESULTS: Globally, 291.2 million (11.2%) of the 2.6 billion children and adolescents (95% UI: 249.9–335.4 million) were estimated to have 1 of the 4 specified disabilities in 2017. The prevalence of these disabilities increased with age from 6.1% among children aged CONCLUSIONS: The number of children and adolescents with these 4 disabilities is far higher than the 2004 estimate, increases from infancy to adolescence, and accounts for a substantial proportion of all-cause YLD.

Published

2020

16. Interferometric bunch length measurements of 3 MeV picocoulomb electron beams

Author

X. Yang, L. H. Yu, V. Smaluk, T. Shaftan, L. Doom, B. Kosciuk, W. X. Cheng, B. Bacha, D. Padrazo, J. J. Li, M. Babzien, M. Fedurin, G. L. Carr, and Y. M. Zhu

Subjects

Physics::Optics, Physics::Accelerator Physics, General Physics and Astronomy

Abstract

We report picosecond bunch length measurements using an interferometric method for a 3 MeV electron beam having bunch charge ranging from 1 to 14 pC. The method senses the single-cycle sub-terahertz (THz) pulse emitted by each electron bunch as coherent transition radiation which, in turn, is analyzed using a Michelson-type interferometer, forming an interferogram that is then processed to yield the nominal electron bunch length. This sub-THz coherent radiation intensity was measured using a quasi-optical detector (QOD) operated at room temperature. This experiment was quite challenging since the divergence angle of the sub-THz pulse emitted by the low-energy electron bunch exceeds ±10°, and its pulse energy at the entrance to the detector was as low as 100 pJ. When compared to a conventional helium-cooled silicon composite bolometer designed for frequencies above 0.5 THz, the QOD provided much better signal-to-noise ratio in the ∼80 GHz frequency range, which was critical for the successful measurement of the bunch length.

Published

2022

17. Far Infrared Synchrotron Near-Field Nanoimaging and Nanospectroscopy

Author

Markus B. Raschke, G. Lawrence Carr, Omar Khatib, Michael C. Martin, and Hans A. Bechtel

Subjects

Materials science, Infrared, Terahertz radiation, Phonon, Physics::Optics, Astrophysics::Cosmology and Extragalactic Astrophysics, 02 engineering and technology, 01 natural sciences, law.invention, Condensed Matter::Materials Science, Far infrared, law, 0103 physical sciences, Electrical and Electronic Engineering, 010306 general physics, Spectroscopy, business.industry, Surface phonon, 021001 nanoscience & nanotechnology, Atomic and Molecular Physics, and Optics, Synchrotron, Electronic, Optical and Magnetic Materials, Optoelectronics, Photonics, 0210 nano-technology, business, Biotechnology

Abstract

Scattering scanning near-field optical microscopy (s-SNOM) has emerged as a powerful imaging and spectroscopic tool for investigating nanoscale heterogeneities in biology, quantum matter, and electronic and photonic devices. However, many materials are defined by a wide range of fundamental molecular and quantum states at far-infrared (FIR) resonant frequencies currently not accessible by s-SNOM. Here we show ultrabroadband FIR s-SNOM nanoimaging and spectroscopy by combining synchrotron infrared radiation with a novel fast and low-noise copper-doped germanium (Ge:Cu) photoconductive detector. This approach of FIR synchrotron infrared nanospectroscopy (SINS) extends the wavelength range of s-SNOM to 31 μm (320 cm–1, 9.7 THz), exceeding conventional limits by an octave to lower energies. We demonstrate this new nanospectroscopic window by measuring elementary excitations of exemplary functional materials, including surface phonon polariton waves and optical phonons in oxides and layered ultrathin van der W...

Published

2018

18. Implementation of a neonatal hearing screening programme in three provinces in Albania

Author

G. L. Carr, Ervin Toçi, Huibert J. Simonsz, Hans L. J. Hoeve, Martijn Toll, Andrea M. L. Bussé, Birkena Qirjazi, Enver Roshi, André Goedegebure, Ophthalmology, and Otorhinolaryngology and Head and Neck Surgery

Subjects

Male, medicine.medical_specialty, Cost-Benefit Analysis, Otoacoustic Emissions, Spontaneous, Maternity hospitals, Target population, Hospitals, Maternity, Hearing screening, 03 medical and health sciences, Neonatal Screening, 0302 clinical medicine, Intensive Care Units, Neonatal, 030225 pediatrics, Intensive care, Health care, Evoked Potentials, Auditory, Brain Stem, Humans, Medicine, Hearing Loss, 030223 otorhinolaryngology, Implementation Science, business.industry, Hearing Tests, Infant, Newborn, Infant, General Medicine, Patient Discharge, 3. Good health, Test (assessment), Otorhinolaryngology, Family medicine, Albania, Pediatrics, Perinatology and Child Health, Female, Rural area, business

Abstract

Objectives The EUSCREEN study compares the cost-effectiveness of paediatric hearing screening programmes and aims to develop a cost-effectiveness model for this purpose. Alongside and informed by the development of the model, neonatal hearing screening (NHS) is implemented in Albania. We report on the first year. Methods An implementation plan was made addressing objectives, target population, screening protocol, screener training, screening devices, care pathways and follow up. NHS started January 1st, 2018 in four maternity hospitals: two in Tirana, one in Pogradec and one in Kukes, representing both urban and rural areas. OAE-OAE-aABR was used to screen well infants in maternity hospitals, whereas aABR-aABR was used in neonatal intensive care units and in mountainous Kukes for all infants. Screeners’ uptake and attitudes towards screening and quality of screening were assessed by distributing questionnaires and visiting the maternity hospitals. The result of screening, diagnostics, follow up and entry into early intervention were registered in a database and monitored. Results Screeners were keen to improve their skills in screening and considered NHS valuable for Albanian health care. The number of “fail” outcomes after the first screen was high initially but decreased to less than 10% after eight months. In 2018, 11,507 infants were born in the four participating maternity hospitals, 10,925 (94.9%) of whom were screened in the first step. For 486 infants the result of screening was not registered. For the first screen, ten parents declined, eight infants died and one infant was discharged before screening could be performed. In 1115 (10.2%) infants the test either could not be performed or the threshold was not reached; 361 (32,4%) of these did not attend the second screen. For the third screen 31 (34.4%) out of 90 did not attend. Reasons given were: parents declined (124), lived too far from screening location (95), their infant died (11), had other health issues (7), or was screened in private clinic (17), no reason given (138). Conclusions Implementation of NHS in Albania is feasible despite continuing challenges. Acceptance was high for the first screen. However, 32.4% of 1115 infants did not attend the second screen, after a “fail” outcome for the first test.

Published

2020

19. Infrared nano-spectroscopy of ferroelastic domain walls in hybrid improper ferroelectric Ca3Ti2O7

Author

Craig J. Fennie, S. W. Cheong, Choongjae Won, G. L. Carr, Seong Joon Lim, Markus B. Raschke, K. A. Smith, Janice L. Musfeldt, Nathan Harms, Elizabeth Nowadnick, Bin Gao, Sabine N. Neal, Michael C. Martin, Hans A. Bechtel, Justin K. Kirkland, Omar Khatib, and Shiyu Fan

Subjects

Ferroelectrics and multiferroics, Materials science, Infrared, Science, Chemical physics, FOS: Physical sciences, General Physics and Astronomy, Ferroics, 02 engineering and technology, Bending, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, Article, law.invention, law, 0103 physical sciences, Nano, 010306 general physics, Spectroscopy, lcsh:Science, Condensed Matter - Materials Science, Multidisciplinary, Condensed matter physics, Materials Science (cond-mat.mtrl-sci), General Chemistry, 021001 nanoscience & nanotechnology, Ferroelectricity, Synchrotron, cond-mat.mtrl-sci, Amplitude, lcsh:Q, 0210 nano-technology

Abstract

Ferroic materials are well known to exhibit heterogeneity in the form of domain walls. Understanding the properties of these boundaries is crucial for controlling functionality with external stimuli and for realizing their potential for ultra-low power memory and logic devices as well as novel computing architectures. In this work, we employ synchrotron-based near-field infrared nano-spectroscopy to reveal the vibrational properties of ferroelastic (90\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$${}^{\circ }$$\end{document}∘ ferroelectric) domain walls in the hybrid improper ferroelectric Ca\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$${}_{3}$$\end{document}3Ti\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$${}_{2}$$\end{document}2O\documentclass[12pt]{minimal} \usepackage{amsmath} \usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy} \usepackage{mathrsfs} \usepackage{upgreek} \setlength{\oddsidemargin}{-69pt} \begin{document}$${}_{7}$$\end{document}7. By locally mapping the Ti-O stretching and Ti-O-Ti bending modes, we reveal how structural order parameters rotate across a wall. Thus, we link observed near-field amplitude changes to underlying structural modulations and test ferroelectric switching models against real space measurements of local structure. This initiative opens the door to broadband infrared nano-imaging of heterogeneity in ferroics., Ferroic domain walls are nano-objects that are considered functional elements in future devices. Here, the authors study phonons across ferroelastic domain walls by synchrotron-based near-field infrared nano-spectroscopy and relate these changes to the order parameter which helps to understand domain wall dynamics.

Published

2019

20. Near-field infrared spectroscopy of monolayer MnPS3

Author

Sabine N. Neal, Hans A. Bechtel, G. Lawrence Carr, Janice L. Musfeldt, David Vanderbilt, Amanda Haglund, Kristjan Haule, Heung-Sik Kim, K. A. Smith, and David Mandrus

Subjects

Lattice dynamics, Materials science, Infrared, Stacking, Infrared spectroscopy, Near and far field, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Local structure, Symmetry (physics), Crystallography, 0103 physical sciences, Monolayer, 010306 general physics, 0210 nano-technology

Abstract

Author(s): Neal, SN; Kim, HS; Smith, KA; Haglund, AV; Mandrus, DG; Bechtel, HA; Carr, GL; Haule, K; Vanderbilt, D; Musfeldt, JL | Abstract: We measured the near-field infrared response of MnPS3 in bulk, few-, and single-layer form and compared our findings with traditional far-field vibrational spectroscopies, a symmetry analysis, and first-principles lattice dynamics calculations. Trends in the Bu mode near 450cm-1 are striking, with the disappearance of this structure in the thinnest sheets. Combined with the amplified response of the activated Ag mode and analysis of the Au+Bu features, we find that symmetry is unexpectedly increased in few- and single-sheet MnPS3 due to a restoration of the threefold axes of rotation. Monoclinicity in this system is therefore a consequence of the long-range stacking pattern and temperature rather than local structure.

Published

2019

21. Nano-Resolved Current-Induced Insulator-Metal Transition in the Mott Insulator Ca2RuO4

Author

Shingo Yonezawa, M. C. Aronson, G. L. Carr, Dimitri Basov, Ichiro Terasaki, Qiang Han, Fumihiko Nakamura, Ziheng Yao, Mengkun Liu, Jiawei Zhang, Andrew J. Millis, Alexander McLeod, Yoshiteru Maeno, Thomas Ciavatti, Xinzhong Chen, Michael C. Martin, Hans A. Bechtel, Chanchal Sow, S. N. Gilbert Corder, and Tiger H. Tao

Subjects

Materials science, Condensed matter physics, Mott insulator, Nucleation, General Physics and Astronomy, Non-equilibrium thermodynamics, 01 natural sciences, Molecular electronic transition, 010305 fluids & plasmas, Electric field, 0103 physical sciences, Condensed Matter::Strongly Correlated Electrons, 010306 general physics, Joule heating, Current density, Single crystal

Abstract

Author(s): Zhang, J; McLeod, AS; Han, Q; Chen, X; Bechtel, HA; Yao, Z; Gilbert Corder, SN; Ciavatti, T; Tao, TH; Aronson, M; Carr, GL; Martin, MC; Sow, C; Yonezawa, S; Nakamura, F; Terasaki, I; Basov, DN; Millis, AJ; Maeno, Y; Liu, M | Abstract: The Mott insulator Ca2RuO4 is the subject of much recent attention following reports of emergent nonequilibrium steady states driven by applied electric fields or currents. In this paper, we carry out infrared nano-imaging and optical-microscopy measurements on bulk single crystal Ca2RuO4 under conditions of steady current flow to obtain insight into the current-driven insulator-to-metal transition. We observe macroscopic growth of the current-induced metallic phase, with nucleation regions for metal and insulator phases determined by the polarity of the current flow. A remarkable metal-insulator-metal microstripe pattern is observed at the phase front separating metal and insulator phases. The microstripes have orientations tied uniquely to the crystallographic axes, implying a strong coupling of the electronic transition to lattice degrees of freedom. Theoretical modeling further illustrates the importance of the current density and confirms a submicron-thick surface metallic layer at the phase front of the bulk metallic phase. Our work confirms that the electrically induced metallic phase is nonfilamentary and is not driven by Joule heating, revealing remarkable new characteristics of electrically induced insulator-metal transitions occurring in functional correlated oxides.

Published

2019

22. Exploring few and single layer CrPS4 with near-field infrared spectroscopy

Author

David Mandrus, David Vanderbilt, G. Lawrence Carr, Heung-Sik Kim, Sabine N. Neal, Kristjan Haule, Hans A. Bechtel, Amanda Haglund, Kenneth R. O'Neal, and Janice L. Musfeldt

Subjects

Physics, Condensed matter physics, Phonon, Mechanical Engineering, Infrared spectroscopy, General Chemistry, Condensed Matter Physics, Symmetry (physics), Polarization density, symbols.namesake, Mechanics of Materials, Inflection point, symbols, Polar, General Materials Science, van der Waals force, Rotation (mathematics)

Abstract

We combine synchrotron-based near-field infrared spectroscopy and first principles lattice dynamics calculations to explore the vibrational response of CrPS4 in bulk, few-, and single-layer form. Analysis of the mode pattern reveals a C2 polar + chiral space group, no symmetry crossover as a function of layer number, and a series of non-monotonic frequency shifts in which modes with significant intralayer character harden on approach to the ultra-thin limit whereas those containing interlayer motion or more complicated displacement patterns soften and show inflection points or steps. This is different from MnPS3 where phonons shift as 1/size2 and are sensitive to the three-fold rotation about the metal center that drives the symmetry crossover. We discuss these differences as well as implications for properties such as electric polarization in terms of presence or absence of the P–P dimer and other aspects of local structure, sheet density, and size of the van der Waals gap.

Published

2021

23. Effect of sample anisotropy on scanning near-field optical microscope images

Author

Xinzhong Chen, G. L. Carr, Michael C. Martin, Ziheng Yao, Hans A. Bechtel, S. T. Chui, and Mengkun Liu

Subjects

010302 applied physics, Materials science, Condensed matter physics, Scattering, Infrared, Isotropy, Physics::Optics, General Physics and Astronomy, 02 engineering and technology, Dielectric, 021001 nanoscience & nanotechnology, 01 natural sciences, Signal, law.invention, Optical microscope, law, 0103 physical sciences, Sapphire, 0210 nano-technology, Anisotropy

Abstract

Scattering-type scanning near-field optical microscopy (s-SNOM) has been widely used to characterize strongly correlated electronic, two dimensional, and plasmonic materials, and it has enormous potential for biological applications. Many of these materials exhibit anisotropic responses that complicate the extraction of dielectric constants from s-SNOM measurements. Here, we generalize our recently developed approach for retrieving the near-field scattering signal from isotropic systems and apply it to anisotropic dielectrics. Specifically, we compare our theoretical results with experimental measurements on modestly anisotropic sapphire that exhibit strong resonances at the infrared frequency range. Good agreement with the experimental result is found. Our result is important for understanding the near-field response of low damping, anisotropic polaritonic states in dielectric media.

Published

2021

24. Ultrabroadband infrared near-field spectroscopy and imaging of local resonators in percolative gold films

Author

G. L. Carr, Jiawei Zhang, Xinzhong Chen, Ziheng Yao, Michael C. Martin, Hans A. Bechtel, and Mengkun Liu

Subjects

Phase transition, Materials science, Condensed matter physics, Characteristic length, Critical phenomena, Applied Mathematics, Near-field optics, Statistical and Nonlinear Physics, Percolation threshold, Optics, Optical Physics, Atomic and Molecular Physics, and Optics, Nanoclusters, Near-field scanning optical microscope, Electrical and Electronic Engineering, Spectroscopy

Abstract

Percolation processes are ubiquitous in nature and are responsible for many critical phenomena such as first-order phase transitions and infectious epidemic networks. The optical properties of a percolative medium can generally be captured by the effective medium approximation (EMA) when the degree of percolation and the properties of the constituent materials are properly addressed. However, the important local collective responses of nanoclusters in the deep subwavelength regime are often only phenomenologically addressed in the standard EMA formalism. A comprehensive method that measures local light–matter interactions and registers how the local responses influence global optical properties has yet to be established on a firm basis. In this paper, we use infrared nano-imaging/spectroscopy to investigate percolative gold films in the vicinity of the critical percolation threshold. We demonstrate experimentally and theoretically that the near-field spectra yield quantitative information of the characteristic length scale of the local gold clusters and their relative oscillator strengths. As a result, EMA analysis can be augmented with near-field nano-spectroscopy to yield better predictability of the far-field reflection spectrum at the corresponding spectral range.

Published

2019

25. Honeycomb lattice Na2IrO3 at high pressures: A robust spin-orbit Mott insulator

Author

Chiming Jin, Xiangyan Bo, Xiangang Wan, Xinguo Hong, Xiaoxiang Xi, Xiaoshan Xu, Gang Cao, G. L. Carr, P. P. Kong, and Zhenxian Liu

Subjects

Physics, Condensed matter physics, Band gap, Mott insulator, 02 engineering and technology, 021001 nanoscience & nanotechnology, 01 natural sciences, Lattice (order), High pressure, 0103 physical sciences, Condensed Matter::Strongly Correlated Electrons, Quantum spin liquid, 010306 general physics, 0210 nano-technology, Monoclinic crystal system

Abstract

The honeycomb iridate ${\mathrm{Na}}_{2}{\mathrm{IrO}}_{3}$ has received much attention as a candidate to realize a quantum spin liquid state, but the nature of its insulating state remains controversial. We found that the material exhibits structural transitions at 3 and 10 GPa. The former is accompanied by 166-meV suppression of the activation gap, but the energies for the low-lying interband transitions change by less than 10 meV. This can be reconciled in a picture in which the application of high pressure barely shifts the electronic bands, but rather merely broadens them. First-principles calculations uncover a strong correlation between the band gap and the $\ensuremath{\beta}$ angle of the monoclinic structure, indicating non-negligible interlayer coupling. These results offer clear evidence for a spin-orbit Mott insulating state in ${\mathrm{Na}}_{2}{\mathrm{IrO}}_{3}$ and are inconsistent with the quasimolecular orbital model.

Published

2018

26. Elección informada, niños sordos y sus familias -- ideas básicas y desarrollo de proyectos

Author

Ros Hunt, Alys Young, G. L. Carr, Wendy McCracken, Amy Skipp, Helen Tattersall, and Anne-Marie Hall

Subjects

Elección informada, Professional services, 030506 rehabilitation, Informed choice, Underpinning, business.industry, Niños sordos, Education, 030507 speech-language pathology & audiology, 03 medical and health sciences, Access to information, Deaf children, Developmental and Educational Psychology, Engineering ethics, Project management, 0305 other medical science, business, Psychology, Social psychology

Abstract

Este artículo trata los temas de elección informada (informed choice) y la oferta de servicios para niños sordos y sus familias. En primer lugar, describe en líneas generales el trasfondo de por qué la elección informada ha llegado a ser una cuestión de tanta importancia en el contexto inglés. A continuación describe las primeras fases de un proyecto de investigación y desarrollo, diseñado para orientar tanto a profesionales como a los padres en un planteamiento de elección informada. Estas fases constan de una revisión detallada de la literatura y una serie de consultas con distintos proveedores de servicios profesionales y padres de niños sordos. Se presentan quince principios clave que se han derivado de estas fases de recogida de datos. Con ellos se fundamenta nuestra comprensión de las complejidades en lo que constituye la elección informada. Se aportan también ejemplos verídicos del documento de orientación profesional y del manual para padres. Éstos sirven para subrayar las dificultades que se encuentran a la hora de transformar estas cuestiones fundamentales en documentos prácticos y útiles, tanto para padres como para profesionales.

Published

2017

27. Controlling phase separation in vanadium dioxide thin films via substrate engineering

Author

Jiwei Lu, Mengkun Liu, Tiger H. Tao, Jianjuan Jiang, Haidan Wen, I-Cheng Tung, Michael C. Martin, Hans A. Bechtel, Jiawei Zhang, Salinporn Kittiwatanakul, Xinzhong Chen, Stuart A. Wolf, G. Lawrence Carr, Stephanie N. Gilbert Corder, and Yi Zhu

Subjects

Materials science, Degree (graph theory), Transition temperature, Analytical chemistry, 02 engineering and technology, Substrate (electronics), Electron, 021001 nanoscience & nanotechnology, 01 natural sciences, Metal, visual_art, 0103 physical sciences, visual_art.visual_art_medium, Thin film, 010306 general physics, 0210 nano-technology, Spectroscopy, Material properties

Abstract

The strong electron-lattice interactions in correlated electron systems provide unique opportunities for altering the material properties with relative ease and flexibility. In this Rapid Communication, we use localized strain control via a focused-ion-beam patterning of $\mathrm{Ti}{\mathrm{O}}_{2}$ substrates to demonstrate that one can selectively engineer the insulator-to-metal transition temperature, the fractional component of the insulating and metallic phases, and the degree of optical anisotropy down to the length scales of the intrinsic phase separation in $\mathrm{V}{\mathrm{O}}_{2}$ thin films without altering the quality of the films. The effects of localized strain control on the strongly correlated electron system are directly visualized by state-of-the-art IR near-field imaging and spectroscopy techniques and x-ray microdiffraction measurements.

Published

2017

28. Performance of an optical stabilization system at NSLS beamline U12IR

Author

G. L. Carr, Eli Stavitski, and Randy J. Smith

Subjects

Materials science, business.industry, Infrared, Noise reduction, Mechanical noise, Synchrotron, law.invention, Optics, Beamline, law, Thermal, Physics::Accelerator Physics, Systems design, business, Spectroscopy, Beam (structure)

Abstract

A low-cost optical feedback system using dynamic mirrors has been developed at the NSLS for stabilizing the position and direction of an infrared synchrotron beam against thermal drift and mechanical noise. The system design has some unique features that potentially simplify installation into an existing infrared beamline. We describe the system and its features along with some performance results.

Published

2014

29. Best Practices in Family-Centered Early Intervention for Children Who Are Deaf or Hard of Hearing: An International Consensus Statement

Author

Mary Pat Moeller, G. L. Carr, Arlene Stredler-Brown, Leeanne Seaver, and Daniel Holzinger

Subjects

Family Health, Family health, Medical education, Consensus, Evidence-Based Medicine, Intervention program, Statement (logic), International Cooperation, Best practice, MEDLINE, Child Welfare, Evidence-based medicine, Deafness, Education, Speech and Hearing, Persons With Hearing Impairments, Intervention (counseling), Pedagogy, Early Intervention, Educational, Humans, Child, Hearing Loss, Psychology

Abstract

A diverse panel of experts convened in Bad Ischl, Austria, in June of 2012 for the purpose of coming to consensus on essential principles that guide family-centered early intervention with children who are deaf or hard of hearing (D/HH). The consensus panel included parents, deaf professionals, early intervention program leaders, early intervention specialists, and researchers from 10 nations. All participants had expertise in working with families of children who are D/HH, and focus was placed on identifying family-centered practice principles that are specific to partnering with these families. Panel members reported that the implementation of family-centered principles was uneven or inconsistent in their respective nations. During the consensus meeting, they identified 10 agreed-upon foundational principles. Following the conference, they worked to refine the principles and to develop a document that described the principles themselves, related program and provider behaviors, and evidence supporting their use (drawing upon studies from multiple disciplines and nations). The goal of this effort was to promote widespread implementation of validated, evidence-based principles for family-centered early intervention with children who are deaf and hard of hearing and their families.

Published

2013

30. The insulating phases of vanadium dioxide are Mott-Hubbard insulators

Author

M. Mumtaz Qazilbash, Eric J. Walter, Joonseok Yoon, G. L. Carr, Honglyoul Ju, T. J. Huffman, Henry Krakauer, C. Hendriks, and Richard J.H. Smith

Subjects

Materials science, Strongly Correlated Electrons (cond-mat.str-el), Condensed matter physics, Band gap, FOS: Physical sciences, 02 engineering and technology, Crystal structure, Electronic structure, Triclinic crystal system, 021001 nanoscience & nanotechnology, 01 natural sciences, 3. Good health, Condensed Matter::Materials Science, Condensed Matter - Strongly Correlated Electrons, Phase (matter), 0103 physical sciences, Coulomb, Condensed Matter::Strongly Correlated Electrons, 010306 general physics, 0210 nano-technology, Spectroscopy, Monoclinic crystal system

Abstract

We present the first comprehensive broadband optical spectroscopy data on two insulating phases of vanadium dioxide (VO2): monoclinic M2 and triclinic. The main result of our work is that the energy gap and the electronic structure are essentially unaltered by the first-order structural phase transition between the M2 and triclinic phases. Moreover, the optical interband features in the M2 and triclinic phases are remarkably similar to those observed in the well-studied monoclinic M1 insulating phase of VO2. As the energy gap is insensitive to the different lattice structures of the three insulating phases, we rule out Peierls effects as the dominant contributor to the opening of the gap. Rather, the energy gap arises from intra-atomic Coulomb correlations., 5 pages, 4 figures

Published

2016

31. Imaging the Material Properties of Bone Specimens Using Reflection-Based Infrared Microspectroscopy

Author

Alvin S. Acerbo, Stefan Judex, Lisa M. Miller, and G. Lawrence Carr

Subjects

Mineralized tissues, Infrared, Chemistry, business.industry, Limiting, Dielectric, Bone and Bones, Article, Analytical Chemistry, Mice, symbols.namesake, Crystallinity, Optics, Fourier transform, Microspectrophotometry, Spectroscopy, Fourier Transform Infrared, symbols, Animals, Specular reflection, business, Material properties, Biomedical engineering

Abstract

Fourier transform infrared microspectroscopy (FTIRM) is a widely used method for mapping the material properties of bone and other mineralized tissues, including mineralization, crystallinity, carbonate substitution, and collagen cross-linking. This technique is traditionally performed in a transmission-based geometry, which requires the preparation of plastic-embedded thin sections, limiting its functionality. Here, we theoretically and empirically demonstrate the development of reflection-based FTIRM as an alternative to the widely adopted transmission-based FTIRM, which reduces specimen preparation time and broadens the range of specimens that can be imaged. In this study, mature mouse femurs were plastic-embedded and longitudinal sections were cut at a thickness of 4 μm for transmission-based FTIRM measurements. The remaining bone blocks were polished for specular reflectance-based FTIRM measurements on regions immediately adjacent to the transmission sections. Kramers-Kronig analysis of the reflectance data yielded the dielectric response from which the absorption coefficients were directly determined. The reflectance-derived absorbance was validated empirically using the transmission spectra from the thin sections. The spectral assignments for mineralization, carbonate substitution, and collagen cross-linking were indistinguishable in transmission and reflection geometries, while the stoichiometric/nonstoichiometric apatite crystallinity parameter shifted from 1032/1021 cm(-1) in transmission-based to 1035/1025 cm(-1) in reflection-based data. This theoretical demonstration and empirical validation of reflection-based FTIRM eliminates the need for thin sections of bone and more readily facilitates direct correlations with other methods such as nanoindentation and quantitative backscatter electron imaging (qBSE) from the same specimen. It provides a unique framework for correlating bone's material and mechanical properties.

Published

2012

32. A new species of Callistemon R.Br. (Myrtaceae, Melaleuceae) from Victoria, Australia

Author

N R Marriott and G. W. Carr

Published

2008

33. Informed Choice and Deaf Children: Underpinning Concepts and Enduring Challenges

Author

Amy Skipp, Alys Young, G. L. Carr, Ros Hunt, Wendy McCracken, and Helen Tattersall

Subjects

Male, medicine.medical_specialty, Concept Formation, media_common.quotation_subject, Information access, Rationality, Choice Behavior, Family [psychology], Education, Speech and Hearing, Promotion (rank), Order (exchange), Concept learning, otorhinolaryngologic diseases, medicine, Humans, Relevance (law), Family, Child, media_common, Informed Consent, Field (Bourdieu), Public health, Great Britain, Informed Consent [psychology], United Kingdom, Persons With Hearing Impairments, Patient Rights, Child, Preschool, Hearing Impaired Persons [psychology], Female, Engineering ethics, Psychology, Social psychology, Social Sciences (miscellaneous)

Abstract

This article concerns the first stage of a research and development project that aimed to produce both parent and professional guidelines on the promotion and provision of informed choice for families with deaf children. It begins with a theoretical discussion of the problems associated with the concept of informed choice and deaf child services and then focuses specifically on why a metastudy approach was employed to address both the overcontextualized debate about informed choice when applied to deaf children and the problems associated with its investigation in practice with families and professionals. It presents a detailed analysis of the conceptual relevance of a range of identified studies "outside" the field of deafness. These are ordered according to 2 main conceptual categories and 7 subcategories - (a) the nature of information: "information that is evaluative, not just descriptive" "the difficulties of information for a purpose" "the origins and status of information" and "informed choice and knowledge, not informed choice and information" and (b) parameters and definitions of choice: "informed choice as absolute and relative concept", "preferences and presumptions of rationality", and "informed choice for whom?" Relevant deaf child literature is integrated into the discussion of each conceptual debate in order both to expand and challenge current usage of informed choice as applied to deaf children and families and to delineate possible directions in the planning of the next stage of the main project aimed at producing parent/ professional guidelines. © 2006 Oxford University Press.

Published

2006

34. [Untitled]

Author

G. L. Carr, Gwyn P. Williams, Wayne R. McKinney, Michael C. Martin, George R. Neil, and Kevin Jordan

Subjects

Physics, Range (particle radiation), Terahertz radiation, business.industry, Biophysics, Synchrotron radiation, Particle accelerator, Cell Biology, Electron, Atomic and Molecular Physics, and Optics, law.invention, Power (physics), Nuclear magnetic resonance, Optics, law, Thz radiation, business, Molecular Biology, Ultrashort pulse

Abstract

We report the production of high power (20watts average, ∼ 1 Megawatt peak) broadbandTHz light based on coherent emission fromrelativistic electrons. Such sources areideal for imaging, for high power damagestudies and for studies of non-linearphenomena in this spectral range. Wedescribe the source, presenting theoreticalcalculations and their experimentalverification. For clarity we compare thissource with one based on ultrafast lasertechniques.

Published

2003

35. [Untitled]

Author

L.M. Miller, G.D. Smith, and G. L. Carr

Subjects

Materials science, Infrared, business.industry, Terahertz radiation, Biophysics, Analytical chemistry, Mid infrared, Synchrotron radiation, Cell Biology, Atomic and Molecular Physics, and Optics, Synchrotron, law.invention, Optics, Far infrared, law, Microscopy, business, Absorption (electromagnetic radiation), Molecular Biology

Abstract

Infrared radiation from synchrotron storagerings serves as a high-brightness source fordiffraction-limited microspectroscopy inboth the mid- and far-infrared spectralranges. Mid-infrared absorption, due to localvibrational modes within complex molecules,is shown to be sensitive to small chemicalchanges associated with certain diseases.Farinfrared modes are believed to result from thefolding or twisting of larger, morecomplex molecules. The ability for thesynchrotron source to perform microscopy ata frequency of 1 THz is demonstrated.

Published

2003

36. High-power terahertz radiation from relativistic electrons

Author

Kevin Jordan, G. L. Carr, Wayne R. McKinney, Gwyn P. Williams, George R. Neil, and Michael C. Martin

Subjects

Physics, Orders of magnitude (power), Multidisciplinary, business.industry, Terahertz radiation, Physics::Optics, Particle accelerator, Electron, Radiation, Laser, Terahertz spectroscopy and technology, law.invention, Optics, law, Optoelectronics, Photonics, business

Abstract

Terahertz (THz) radiation, which lies in the far-infrared region, is at the interface of electronics and photonics. Narrow-band THz radiation can be produced by free-electron lasers and fast diodes. Broadband THz radiation can be produced by thermal sources and, more recently, by table-top laser-driven sources and by short electron bunches in accelerators, but so far only with low power. Here we report calculations and measurements that confirm the production of high-power broadband THz radiation from subpicosecond electron bunches in an accelerator. The average power is nearly 20 watts, several orders of magnitude higher than any existing source, which could enable various new applications. In particular, many materials have distinct absorptive and dispersive properties in this spectral range, so that THz imaging could reveal interesting features. For example, it would be possible to image the distribution of specific proteins or water in tissue, or buried metal layers in semiconductors; the present source would allow full-field, real-time capture of such images. High peak and average power THz sources are also critical in driving new nonlinear phenomena and for pump-probe studies of dynamical properties of materials.

Published

2002

37. Stockwellia quadrifida (Myrtaceae), a new Australian genus and species in the eucalypt group

Author

Peter G. Wilson, S. G. M. Carr, Bernard Hyland, Pauline Y. Ladiges, and D. J. Carr

Subjects

Synapomorphy, Eucalyptopsis, biology, Stockwellia, Allosyncarpia, Sister group, Genus, Botany, Plant Science, Perianth, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Hypanthium

Abstract

A new genus and species in the eucalypt group of the Myrtaceae is described. Stockwellia quadrifida D.J. Carr, S.G.M. Carr & B.Hyland gen. et sp. nov. is a rainforest tree of restricted distribution on the Atherton Tableland, North Queensland, Australia. Molecular data suggest that it is the sister taxon to Eucalyptopsis and this is supported by morphological characters. The prolonged hypanthium and reduced perianth appear to be synapomorphies for these two genera and the circumscissile hypanthium a synapomorphy shared with Allosyncarpia. Stockwellia differs from Eucalyptopsis by the distinct, albeit reduced, perianth and the hypanthium splitting into four segments at anthesis. The relationship of these two genera indicates an historical biogeographical link between New Guinea and the Queensland wet tropics region. © 2002 The Linnean Society of London, Botanical Journal of the Linnean Society, 2002, 139, 415–421.

Published

2002

38. Spectroscopic signatures of domain walls in hexagonalErMnO3

Author

Xueyun Wang, Sang-Wook Cheong, Nara Lee, Xiaoxiang Xi, Q.-C. Sun, G. L. Carr, Dipanjan Mazumdar, Richard J.H. Smith, and Janice L. Musfeldt

Subjects

Physics, Condensed matter physics, Hexagonal crystal system, Band gap, Lattice (order), Rare earth, Condensed Matter Physics, Polarization (waves), Effective nuclear charge, Electronic, Optical and Magnetic Materials, Electronic properties

Abstract

We measured the spectroscopic response of stripe- and vortex-containing ${\mathrm{ErMnO}}_{3}$ in order to uncover the electronic properties of the domain walls. We quantify Born effective charge and polarization differences using the lattice behavior, analyze the local rare earth environment from the $f$-manifold excitations, and reveal how shifts in the charge transfer excitations impact the band gap. The increased Born charge, polarization, and band gap in the vortex-containing material are brought together with a discussion of hybridization and wall density effects. The domain wall optical constants are strongly frequency dependent.

Published

2014

39. Bulk Signatures of Pressure-Induced Band Inversion and Topological Phase Transitions inPb1−xSnxSe

Author

Xiaoxiang Xi, X. G. Hong, Xu-Gang He, Wei Ku, T. S. Liu, Ruidan Zhong, Xu Du, Zhiqiang Chen, Fen Guan, G. D. Gu, Zhenxian Liu, G. L. Carr, and John Schneeloch

Subjects

Physics, Phase transition, Spectral weight, Condensed matter physics, Infrared, Band gap, Fermi level, General Physics and Astronomy, 02 engineering and technology, 021001 nanoscience & nanotechnology, Topology, 01 natural sciences, symbols.namesake, Absorption edge, Topological insulator, 0103 physical sciences, Density of states, symbols, 010306 general physics, 0210 nano-technology

Abstract

The characteristics of topological insulators are manifested in both their surface and bulk properties, but the latter remain to be explored. Here we report bulk signatures of pressure-induced band inversion and topological phase transitions in ${\mathrm{Pb}}_{1\ensuremath{-}x}{\mathrm{Sn}}_{x}\mathrm{Se}$ ($x=0.00$, 0.15, and 0.23). The results of infrared measurements as a function of pressure indicate the closing and the reopening of the band gap as well as a maximum in the free carrier spectral weight. The enhanced density of states near the band gap in the topological phase gives rise to a steep interband absorption edge. The change of density of states also yields a maximum in the pressure dependence of the Fermi level. Thus, our conclusive results provide a consistent picture of pressure-induced topological phase transitions and highlight the bulk origin of the novel properties in topological insulators.

Published

2014

40. Long axis electromechanics during dobutamine stress in patients with coronary artery disease and left ventricular dysfunction

Author

G S Carr-White, Christine O'Sullivan, M.Y. Henein, Derek G. Gibson, and Alison Duncan

Subjects

Male, medicine.medical_specialty, Cardiotonic Agents, Diastole, Coronary Disease, Cardiovascular Medicine, Electrocardiography, Ventricular Dysfunction, Left, QRS complex, Stress, Physiological, Dobutamine, Internal medicine, Heart rate, Humans, Medicine, cardiovascular diseases, medicine.diagnostic_test, business.industry, Left bundle branch block, Stroke Volume, Stroke volume, Middle Aged, medicine.disease, Heart failure, cardiovascular system, Cardiology, Female, Cardiology and Cardiovascular Medicine, business, medicine.drug

Abstract

OBJECTIVE—To dissociate the effect of inotropy from activation change during dobutamine stress on left ventricular long axis function in patients with coronary artery disease (CAD). METHODS—25 patients with CAD and normal left ventricular cavity size and 30 with cavity dilatation—18 with normal activation (DCM-NA) and 12 with left bundle branch block (DCM-LBBB)—were compared with 20 controls. 12 lead ECG and septal long axis echograms were assessed at rest and peak dobutamine stress. Amplitude, shortening and lengthening velocities, postejection shortening, Q wave to onset of shortening (Q-OS), and A2 to onset of lengthening (A2-OL) were measured. Inotropy was evaluated from peak aortic acceleration. RESULTS—In controls, amplitude, shortening and lengthening velocities, and peak aortic acceleration increased with stress; QRS, Q-OS, and A2-OL shortened (all p

Published

2001

41. Observation of coherent synchrotron radiation from the NSLS VUV ring

Author

G. L. Carr, S.L. Kramer, David B. Tanner, Ricardo P. S. M. Lobo, and James B. Murphy

Subjects

Physics, Nuclear and High Energy Physics, business.industry, Synchrotron radiation, Electron, Ring (chemistry), Electron storage, Wavelength, Optics, Far infrared, Modulation, Cathode ray, Physics::Accelerator Physics, Atomic physics, business, Instrumentation

Abstract

We report the observation of multiparticle coherent emission in the very far infrared from bunched electrons in an electron storage ring. The emission occurs in quasi-periodic bursts, and only when the electron beam current exceeds a threshold value, suggesting an instability-driven modulation of the electron bunch density. For the operating conditions reported, the spectral content of the coherent emission is peaked near a wavelength of 7 mm. This wavelength is much shorter than the nominal electron bunch length, indicating the presence of a density modulation within the bunch.

Published

2001

42. A broadband silicon quarter-wave retarder for far-infrared spectroscopic circular dichroism

Author

T. N. Stanislavchuk, G. L. Carr, Andrei Sirenko, S.N. Gilbert, Randy J. Smith, Xiaoxiang Xi, and J. J. Tu

Subjects

Total internal reflection, Circular dichroism, Condensed Matter - Materials Science, Materials science, Condensed Matter - Mesoscale and Nanoscale Physics, Magnetic circular dichroism, business.industry, Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences, Condensed Matter Physics, Linear dichroism, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Optics, Far infrared, X-ray magnetic circular dichroism, Vibrational circular dichroism, Mesoscale and Nanoscale Physics (cond-mat.mes-hall), business, Circular polarization

Abstract

The high brightness, broad spectral coverage and pulsed characteristics of infrared synchrotron radiation enable time-resolved spectroscopy under throughput-limited optical systems, as can occur with the high-field magnet cryostat systems used to study electron dynamics and cyclotron resonance by far-infrared techniques. A natural extension for magnetospectroscopy is to sense circular dichroism, i.e. the difference in a material’s optical response for left and right circularly polarized light. A key component for spectroscopic circular dichroism is an achromatic 1 4 wave retarder functioning over the spectral range of interest. We report here the development of an in-line retarder using total internal reflection in high-resistivity silicon. We demonstrate its performance by distinguishing electronic excitations of differing handedness for GaAs in a magnetic field. This 1 4 wave retarder is expected to be useful for far-infrared spectroscopy of circular dichroism in many materials.

Published

2014

43. A cytokine switch induced by human seminal plasma: an immune modulation with implications for sexually transmitted disease

Author

G. G. Carr, Rodney W. Kelly, and H. O. D. Critchley

Subjects

Male, Sexually transmitted disease, medicine.medical_specialty, medicine.medical_treatment, Prostaglandin, Semen, HIV Antibodies, Biology, chemistry.chemical_compound, Immune system, Internal medicine, Immune Tolerance, medicine, Humans, Rehabilitation, Obstetrics and Gynecology, Sexually Transmitted Diseases, Viral, Interleukin-12, Interleukin-10, Killer Cells, Natural, Interleukin 10, Endocrinology, Cytokine, Reproductive Medicine, chemistry, Interleukin 12, Female, T-Lymphocytes, Cytotoxic, Prostaglandin E

Abstract

The immunosuppressive activity of human seminal plasma may be one factor in the aetiology of sexually transmitted disease and could be particularly important for the spread of human immunodeficiency virus (HIV). The advent of virus that can preferentially infect Langerhans cells of the genital mucosa underscores the relevance of seminal plasma effects. Virally infected cells are eradicated by the killing activity of T cells and natural killer (NK) cells and this cytotoxicity is stimulated by IL-12 (previously known as natural killer cell stimulatory factor) and partly inhibited by IL-10 (previously known as cytokine synthesis inhibitory factor). We have examined the effects of human seminal plasma on the production of these key cytokines. Cytokine production was measured in rapidly diluted, fresh, lipopolysaccharide (LPS)-stimulated, whole blood since this provided leukocytes with minimal exposure to prostaglandin. Prostaglandin concentrations and cytokine release were measured by ELISA. Addition of human seminal plasma diluted up to 100 000 times (0.001%) to blood cell cultures led to a marked increase in the IL-10/IL-12 ratio (P

Published

1997

44. Signatures of a Pressure-Induced Topological Quantum Phase Transition in BiTeI

Author

Catalin Martin, Xiaoxiang Xi, Wei Ku, Zhiqiang Chen, Chunli Ma, David B. Tanner, G. L. Carr, Zhenxian Liu, and Helmuth Berger

Subjects

Quantum phase transition, Physics, Condensed Matter - Materials Science, Condensed matter physics, business.industry, Band gap, Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences, General Physics and Astronomy, Infrared spectroscopy, 02 engineering and technology, 021001 nanoscience & nanotechnology, Topology, 01 natural sciences, 7. Clean energy, Condensed Matter::Materials Science, Lattice constant, Semiconductor, 0103 physical sciences, X-ray crystallography, Charge carrier, 010306 general physics, 0210 nano-technology, business, Powder diffraction

Abstract

We report the observation of two signatures of a pressure-induced topological quantum phase transition in the polar semiconductor BiTeI using x-ray powder diffraction and infrared spectroscopy. The x-ray data confirm that BiTeI remains in its ambient-pressure structure up to 8 GPa. The lattice parameter ratio c/a shows a minimum between 2.0-2.9 GPa, indicating an enhanced c-axis bonding through pz band crossing as expected during the transition. Over the same pressure range, the infrared spectra reveal a maximum in the optical spectral weight of the charge carriers, reflecting the closing and reopening of the semiconducting band gap. Both of these features are characteristics of a topological quantum phase transition, and are consistent with a recent theoretical proposal., revised final version

Published

2013

45. Anisotropic Infrared Response of Vanadium Dioxide Microcrystals

Author

M. Mumtaz Qazilbash, G. L. Carr, David Cobden, Dimitri Basov, Eric J. Walter, Henry Krakauer, Michael C. Martin, Hans A. Bechtel, T. J. Huffman, Jiang Wei, and Peng Xu

Subjects

Phase transition, Materials science, Infrared, Phonon, Ab initio, FOS: Physical sciences, 02 engineering and technology, 01 natural sciences, 7. Clean energy, Condensed Matter::Materials Science, Condensed Matter - Strongly Correlated Electrons, Phase (matter), 0103 physical sciences, 010306 general physics, Anisotropy, Condensed Matter - Materials Science, Condensed matter physics, Strongly Correlated Electrons (cond-mat.str-el), Materials Science (cond-mat.mtrl-sci), 021001 nanoscience & nanotechnology, Condensed Matter Physics, Electronic, Optical and Magnetic Materials, Rutile, Condensed Matter::Strongly Correlated Electrons, 0210 nano-technology, Monoclinic crystal system

Abstract

Vanadium dioxide (VO2) undergoes a phase transition at a temperature of 340 K between an insulating monoclinic M1 phase and a conducting rutile phase. Accurate measurements of possible anisotropy of the electronic properties and phonon features of VO2 in the insulating monoclinic M1 and metallic rutile phases are a prerequisite for understanding the phase transition in this correlated system. Recently, it has become possible to grow single domain untwinned VO2 microcrystals which makes it possible to investigate the true anisotropy of VO2. We performed polarized transmission infrared micro-spectroscopy on these untwinned microcrystals in the spectral range between 200 cm-1 and 6000 cm-1 and have obtained the anisotropic phonon parameters and low frequency electronic properties in the insulating monoclinic M1 and metallic rutile phases. We have also performed ab initio GGA+U total energy calculations of phonon frequencies for both phases. We find our measurements and calculations to be in good agreement., 19 pages, 7 figures, 4 tables

Published

2013

46. Infrared phonon modes in multiferroic single-crystal FeTe2O5Br

Author

Cliff G. Martin, Helmuth Berger, David B. Tanner, K. H. Miller, Xiaoxiang Xi, Xiaoshan Xu, V. Craciun, and G. L. Carr

Subjects

Materials science, Condensed matter physics, Far infrared, Infrared, Phonon, Lattice (order), Condensed Matter::Strongly Correlated Electrons, Multiferroics, Condensed Matter Physics, Anisotropy, Single crystal, Electronic, Optical and Magnetic Materials, Monoclinic crystal system

Abstract

Reflection and transmission as a function of temperature (7-300 K and 5-300 K respectively) have been measured on single crystals of the multiferroic compound FeTe2O5Br utilizing light spanning from the far infrared to the visible. The complex dielectric function and other optical properties were obtained via Kramers-Kronig analysis and by fits to a Drude-Lortentz model. Analysis of the anisotropic excitation spectra via Drude-Lorentz fitting and lattice dynamical calculations have led to the observation of 43 of the 53 modes predicted along the b axis of the monoclinic cell. The phonon response parallel to the a and c axes are also presented. Assignments to groups (clusters) of phonons have been made and trends within them are discussed in light of our calculated displacement patterns.

Published

2013

47. Infrared Vortex-State Electrodynamics in Type-II Superconducting Thin Films

Author

J.-H. Park, Xiaoxiang Xi, David B. Tanner, G. L. Carr, and David Graf

Subjects

Superconductivity, Physics, Condensed matter physics, Field (physics), Condensed Matter - Superconductivity, FOS: Physical sciences, Superconducting magnet, Condensed Matter Physics, Optical conductivity, Vortex state, Electronic, Optical and Magnetic Materials, Vortex, Magnetic field, Superconductivity (cond-mat.supr-con), Quantum electrodynamics, Condensed Matter::Superconductivity, Critical field

Abstract

The vortex-state electrodynamics of s-wave superconductors has been studied by infrared spectroscopy. Far-infrared transmission and reflection spectra of superc onducting Nb0.5Ti0.5N and NbN thin films were measured in a magnetic field perpendicular to the film surface , and the optical conductivity was extracted. The data show clear reduction of superconducting signature. We consider the vortex state as a twocomponent effective medium of normal cores embedded in a BCS superconductor. The spectral features are well explained by the Maxwell-Garnett theory. Our analysis supports the presence of magnetic-fieldinduced pair-breaking effects in the superconducting component outside of the vortex cores. The vortex or Abrikosov state exists in type-II superconductors subjected to magnetic fields between Bc1 and Bc2. In this state the field penetrates the superconductor in the form of quantized tubes of flux, or vortices. The superconducting gap is zero inside the vortex cores and finite outside so that each vortex may be considered to have a core of normal metal, surrounded by superconductor [1, 2]. Because vortex quantization renders the material an inhomogeneous system, it necessarily affects the electrodynamics of the s uperconductor. The microwave response of the vortex state has been extensively studied theoretically [3‐5] and experimentally [6‐11]. However the picture is still incomplete in the infrared region spanning the superconducting gap [12, 13]. In this Letter we address the infrared electrodynamics of the vortex state. We obtain the complex optical conductivity of type-II superconductors and compare our results to calculations of a superconductor-normal metal mixture using the two key models for the effective conductivity of an inhomogeneous system: that of Garnett [14] (the so-called “Maxwell-Garnett theory” or MGT) and that of Bruggeman [15] (sometimes called the “effective-medium approximation” or EMA). We also compare our results to a theory of viscous motion of vortices driven by currents in the superconductor [3]. We find that only the MGT gives a good description of experiment, and then only when pairbreaking by the magnetic field [16‐18] is considered. That it does so is reasonable considering the topology of the vortex state: normal regions surrounded entirely by a connected superfluid. As pointed out some years ago [19], this is the topology of the MGT: the inclusions are embedded in a host medium and are correlated to stay apart. In contrast, the EMA allows percolation of the minority constituent at some critical concentration, something that does not happen in the vortex state until the upper critical field, when the entire material is in the normal state. We studied type-II superconducting thin films of BCS superconductors Nb0.5Ti0.5N and NbN, which are widely used in superconducting magnets [20], RF cavities [21], and photodetectors [22]. The 10 nm Nb0.5Ti0.5N film was grown on a quartz substrate in Ar and N2 gas with a NbTi target, and the 70 nm NbN film grown on a MgO substrate in N2 atmosphere using Nb, both by reactive magnetron sputtering [23, 24]. The substrates have negligible absorption in the spectral range of interest (10‐ 100 cm −1 ) for T < 20 K. We performed the experiment at Beamline U4IR of the National Synchrotron Light Source, Brookhaven National Laboratory. The beamline is equipped with a Bruker IFS 66v FT-IR spectrometer, modified to use synchrotron radiation and a superconducting magnet for low-temperature magneto-spectroscopy. A composite silicon bolometer operating at T ∼1.5 K detects far-infrared radiation with high sensitivity. Both sample s were cooled to 2 K (≪ Tc) in zero field, and their transmission and reflection measured in magnetic fields from 0‐10 T, with the field direction normal to the sample sur

Published

2013

48. Dynamic full-field infrared imaging with multiple synchrotron beams

Author

Eli Stavitski, Lisa M. Miller, Alvin S. Acerbo, Randy J. Smith, Megan W. Bourassa, and G. L. Carr

Subjects

Brightness, Microscope, Synchrotron radiation, Astrophysics::Cosmology and Extragalactic Astrophysics, Article, Analytical Chemistry, law.invention, Mice, Optics, law, Microscopy, Spectroscopy, Fourier Transform Infrared, Animals, Image resolution, Astrophysics::Galaxy Astrophysics, Chemistry, business.industry, Synchrotron light source, Equipment Design, Synchrotron, Cardinal point, Spinal Cord, Physics::Accelerator Physics, business, Synchrotrons

Abstract

Microspectroscopic imaging in the infrared (IR) spectral region allows for the examination of spatially resolved chemical composition on the microscale. More than a decade ago, it was demonstrated that diffraction limited spatial resolution can be achieved when an apertured, single pixel IR microscope is coupled to the high brightness of a synchrotron light source. Nowadays, many IR microscopes are equipped with multi-pixel Focal Plane Array (FPA) detectors, which dramatically improve data acquisition times for imaging large areas. Recently, progress been made toward efficiently coupling synchrotron IR beamlines to multi-pixel detectors, but they utilize expensive and highly customized optical schemes. Here we demonstrate the development and application of a simple optical configuration that can be implemented on most existing synchrotron IR beamlines in order to achieve full-field IR imaging with diffraction-limited spatial resolution. Specifically, the synchrotron radiation fan is extracted from the bending magnet and split into four beams that are combined on the sample, allowing it to fill a large section of the FPA. With this optical configuration, we are able to oversample an image by more than a factor of two, even at the shortest wavelengths, making image restoration through deconvolution algorithms possible. High chemical sensitivity, rapid acquisition times, and superior signal-to-noise characteristics of the instrument are demonstrated. The unique characteristics of this setup enabled the real time study of heterogeneous chemical dynamics with diffraction-limited spatial resolution for the first time.

Published

2013

49. Very High Power THz Radiation Sources

Author

G L, Carr, M C, Martin, W R, McKinney, K, Jordan, G R, Neil, and G P, Williams

Subjects

Article

Abstract

We report the production of high power (20watts average, ∼ 1 Megawatt peak) broadbandTHz light based on coherent emission fromrelativistic electrons. Such sources areideal for imaging, for high power damagestudies and for studies of non-linearphenomena in this spectral range. Wedescribe the source, presenting theoreticalcalculations and their experimentalverification. For clarity we compare thissource with one based on ultrafast lasertechniques.

Published

2013

50. Infrared phonon anomaly and magnetic excitations in single-crystal Cu3Bi(SeO3)2O2Cl

Author

Roger A Lewis, Helmuth Berger, Peter W. Stephens, David B. Tanner, G. L. Carr, K. H. Miller, Charles R. Martin, and E. Constable

Subjects

Physics, Crystal, Condensed matter physics, Far infrared, Infrared, Phonon, Condensed Matter Physics, Anisotropy, Single crystal, Néel temperature, Electronic, Optical and Magnetic Materials, Magnetic field

Abstract

Infrared reflection and transmission as a function of temperature have been measured on single crystals of Cu3Bi(SeO3)(2)O2Cl. The complex dielectric function and optical properties along all three principal axes of the orthorhombic cell were obtained via Kramers-Kronig analysis and by fits to a Drude-Lorentz model. Below 115 K, 16 additional modes [8(E parallel to(a) over cap)+ 6(E parallel to(b) over cap)+ 2(E parallel to(c) over cap)] appear in the phonon spectra; however, powder x-ray diffraction measurements do not detect a new structure at 85 K. Potential explanations for the new phonon modes are discussed. Transmission in the far infrared as a function of temperature has revealed magnetic excitations originating below the magnetic ordering temperature (T-c similar to 24 K). The origin of the excitations in the magnetically ordered state will be discussed in terms of their response to different polarizations of incident light, behavior in externally applied magnetic fields, and the anisotropic magnetic properties of Cu3Bi(SeO3)(2)O2Cl as determined by dc susceptibility measurements.

Published

2012