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New lipophilic 3-hydroxy-4-pyridinonate iron(III) complexes: synthesis and EXAFS structural characterisation.

Dalton transactions (Cambridge, England : 2003)

Schlindwein W, Waltham E, Burgess J, Binsted N, Nunes A, Leite A, Rangel M.
PMID: 16505910
Dalton Trans. 2006 Mar 14;(10):1313-21. doi: 10.1039/b509671e. Epub 2005 Nov 22.

New tris-iron(III) chelates of 3-hydroxy-4-pyridinone ligands derived from maltol (3-hydroxy-2-methyl-4-pyrone) or ethylmaltol (2-ethyl-3-hydroxy-4-pyrone), including a variety of N-aryl (phenyl, 4'-tolyl, 4'-(n-butyl)phenyl, 4'-(n-hexyl)phenyl) and N-benzyl (4'-methylbenzyl, 4'-fluorobenzyl and 4'-(trifluoromethyl)benzylamine) substituents on the nitrogen atom of the pyridinone ring, have been...

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Schlindwein W, Waltham E, Burgess J, et al. New lipophilic 3-hydroxy-4-pyridinonate iron(III) complexes: synthesis and EXAFS structural characterisation. Dalton Trans. 2005;(10):1313-21doi: 10.1039/b509671e.
Schlindwein, W., Waltham, E., Burgess, J., Binsted, N., Nunes, A., Leite, A., & Rangel, M. (2006). New lipophilic 3-hydroxy-4-pyridinonate iron(III) complexes: synthesis and EXAFS structural characterisation. Dalton transactions (Cambridge, England : 2003), (10), 1313-21. https://doi.org/10.1039/b509671e
Schlindwein, Walkiria, et al. "New lipophilic 3-hydroxy-4-pyridinonate iron(III) complexes: synthesis and EXAFS structural characterisation." Dalton transactions (Cambridge, England : 2003) vol. ,10 (2006): 1313-21. doi: https://doi.org/10.1039/b509671e
Schlindwein W, Waltham E, Burgess J, Binsted N, Nunes A, Leite A, Rangel M. New lipophilic 3-hydroxy-4-pyridinonate iron(III) complexes: synthesis and EXAFS structural characterisation. Dalton Trans. 2006 Mar 14;(10):1313-21. doi: 10.1039/b509671e. Epub 2005 Nov 22. PMID: 16505910.
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Determination of specular reflectances in a liquid medium with a variable angle of incidence.

Applied optics

Gil S, Clarke GA, McGarry L, Waltham CE.
PMID: 20963171
Appl Opt. 1995 Feb 01;34(4):695-702. doi: 10.1364/AO.34.000695.

We present a technique we developed to measure specular reflectances of mirrors immersed in liquids and in air. The method works with a broad range of angles of incidence (θ = 15-75°). The wavelength range used in this research...

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Gil S, Clarke GA, McGarry L, et al. Determination of specular reflectances in a liquid medium with a variable angle of incidence. Appl Opt. 1995;34(4):695-702doi: 10.1364/AO.34.000695.
Gil, S., Clarke, G. A., McGarry, L., & Waltham, C. E. (1995). Determination of specular reflectances in a liquid medium with a variable angle of incidence. Applied optics, 34(4), 695-702. https://doi.org/10.1364/AO.34.000695
Gil, S, et al. "Determination of specular reflectances in a liquid medium with a variable angle of incidence." Applied optics vol. 34,4 (1995): 695-702. doi: https://doi.org/10.1364/AO.34.000695
Gil S, Clarke GA, McGarry L, Waltham CE. Determination of specular reflectances in a liquid medium with a variable angle of incidence. Appl Opt. 1995 Feb 01;34(4):695-702. doi: 10.1364/AO.34.000695. PMID: 20963171.
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Light scattering and absorption caused by bacterial activity in water.

Applied optics

Waltham C, Boyle J, Ramey B, Smit J.
PMID: 20941320
Appl Opt. 1994 Nov 01;33(31):7536-40. doi: 10.1364/AO.33.007536.

There is a growing class of elementary particle detectors, large-water Čerenkov detectors, that have a body of water (thousands of tons) as a sensitive medium. Particles are detected when they interact with the water and produce Čerenkov light, so...

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Waltham C, Boyle J, Ramey B, et al. Light scattering and absorption caused by bacterial activity in water. Appl Opt. 1994;33(31):7536-40doi: 10.1364/AO.33.007536.
Waltham, C., Boyle, J., Ramey, B., & Smit, J. (1994). Light scattering and absorption caused by bacterial activity in water. Applied optics, 33(31), 7536-40. https://doi.org/10.1364/AO.33.007536
Waltham, C, et al. "Light scattering and absorption caused by bacterial activity in water." Applied optics vol. 33,31 (1994): 7536-40. doi: https://doi.org/10.1364/AO.33.007536
Waltham C, Boyle J, Ramey B, Smit J. Light scattering and absorption caused by bacterial activity in water. Appl Opt. 1994 Nov 01;33(31):7536-40. doi: 10.1364/AO.33.007536. PMID: 20941320.
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Vibroacoustic characteristics of a gothic harp.

The Journal of the Acoustical Society of America

Daltrop S, Kotlicki A, Waltham C, Wolfe N, Elie B, Gautier F.
PMID: 22280706
J Acoust Soc Am. 2012 Jan;131(1):837-43. doi: 10.1121/1.3651223.

The "gothic" style of harp was popular across most of Europe from the late medieval period to the Renaissance. These harps have a one-piece, longitudinally oriented hardwood soundboard, as opposed to the transverse-oriented bonded softwood structure on a modern...

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Daltrop S, Kotlicki A, Waltham C, et al. Vibroacoustic characteristics of a gothic harp. J Acoust Soc Am. 2012;131(1):837-43doi: 10.1121/1.3651223.
Daltrop, S., Kotlicki, A., Waltham, C., Wolfe, N., Elie, B., & Gautier, F. (2012). Vibroacoustic characteristics of a gothic harp. The Journal of the Acoustical Society of America, 131(1), 837-43. https://doi.org/10.1121/1.3651223
Daltrop, Shira, et al. "Vibroacoustic characteristics of a gothic harp." The Journal of the Acoustical Society of America vol. 131,1 (2012): 837-43. doi: https://doi.org/10.1121/1.3651223
Daltrop S, Kotlicki A, Waltham C, Wolfe N, Elie B, Gautier F. Vibroacoustic characteristics of a gothic harp. J Acoust Soc Am. 2012 Jan;131(1):837-43. doi: 10.1121/1.3651223. PMID: 22280706.
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Search for weakly interacting neutral bosons produced in pi -p interactions at rest and decaying into e+e- pairs.

Physical review letters

Bernasconi T, Bertl W, Egli S, Eichler R, Felawka L, Grossmann-Handschin M, Hermes E, Kozlowski T, Lordong N, Martino J, Meijer Drees R, Muheim F, Niebuhr C, Playfer S, Pruys H, van der Schaaf A, Vermeulen D, Walter HK, Waltham C.
PMID: 10045819
Phys Rev Lett. 1992 Jun 29;68(26):3845-3848. doi: 10.1103/PhysRevLett.68.3845.

No abstract available.

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Bernasconi T, Bertl W, Egli S, et al. Search for weakly interacting neutral bosons produced in pi -p interactions at rest and decaying into e+e- pairs. Phys Rev Lett. 1992;68(26):3845-3848doi: 10.1103/PhysRevLett.68.3845.
Bernasconi, T., Bertl, W., Egli, S., Eichler, R., Felawka, L., Grossmann-Handschin, M., Hermes, E., Kozlowski, T., Lordong, N., Martino, J., Meijer Drees R, Muheim, F., Niebuhr, C., Playfer, S., Pruys, H., van der Schaaf A, Vermeulen, D., Walter, H. K., & Waltham, C. (1992). Search for weakly interacting neutral bosons produced in pi -p interactions at rest and decaying into e+e- pairs. Physical review letters, 68(26), 3845-3848. https://doi.org/10.1103/PhysRevLett.68.3845
Bernasconi, et al. "Search for weakly interacting neutral bosons produced in pi -p interactions at rest and decaying into e+e- pairs." Physical review letters vol. 68,26 (1992): 3845-3848. doi: https://doi.org/10.1103/PhysRevLett.68.3845
Bernasconi T, Bertl W, Egli S, Eichler R, Felawka L, Grossmann-Handschin M, Hermes E, Kozlowski T, Lordong N, Martino J, Meijer Drees R, Muheim F, Niebuhr C, Playfer S, Pruys H, van der Schaaf A, Vermeulen D, Walter HK, Waltham C. Search for weakly interacting neutral bosons produced in pi -p interactions at rest and decaying into e+e- pairs. Phys Rev Lett. 1992 Jun 29;68(26):3845-3848. doi: 10.1103/PhysRevLett.68.3845. PMID: 10045819.
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Iron Processing Mechanisms are Responsible for Changes in MRI T1 Relaxation in Venous Thrombosis.

Journal of vascular surgery. Venous and lymphatic disorders

Saha P, Andia M, Jenkins J, Grover S, Phinikaridou A, Evans C, Patel AS, Modarai B, Waltham M, Smith A.
PMID: 26993914
J Vasc Surg Venous Lymphat Disord. 2013 Jan;1(1):103. doi: 10.1016/j.jvsv.2012.10.016. Epub 2012 Dec 08.

No abstract available.

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Saha P, Andia M, Jenkins J, et al. Iron Processing Mechanisms are Responsible for Changes in MRI T1 Relaxation in Venous Thrombosis. J Vasc Surg Venous Lymphat Disord. 2012;1(1):103doi: 10.1016/j.jvsv.2012.10.016.
Saha, P., Andia, M., Jenkins, J., Grover, S., Phinikaridou, A., Evans, C., Patel, A. S., Modarai, B., Waltham, M., & Smith, A. (2013). Iron Processing Mechanisms are Responsible for Changes in MRI T1 Relaxation in Venous Thrombosis. Journal of vascular surgery. Venous and lymphatic disorders, 1(1), 103. https://doi.org/10.1016/j.jvsv.2012.10.016
Saha, P, et al. "Iron Processing Mechanisms are Responsible for Changes in MRI T1 Relaxation in Venous Thrombosis." Journal of vascular surgery. Venous and lymphatic disorders vol. 1,1 (2013): 103. doi: https://doi.org/10.1016/j.jvsv.2012.10.016
Saha P, Andia M, Jenkins J, Grover S, Phinikaridou A, Evans C, Patel AS, Modarai B, Waltham M, Smith A. Iron Processing Mechanisms are Responsible for Changes in MRI T1 Relaxation in Venous Thrombosis. J Vasc Surg Venous Lymphat Disord. 2013 Jan;1(1):103. doi: 10.1016/j.jvsv.2012.10.016. Epub 2012 Dec 08. PMID: 26993914.
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Expanding Horizons for Abdominal Aortic Aneurysms.

Aorta (Stamford, Conn.)

Rolph RC, Waltham M, Smith A, Kuivaniemi H.
PMID: 26798751
Aorta (Stamford). 2015 Feb 01;3(1):9-15. doi: 10.12945/j.aorta.2015.14-041. eCollection 2015 Feb.

Recent technological advances have allowed researchers to interrogate the genetic basis of abdominal aortic aneurysms in great detail. The results from these studies are expected to transform our understanding of this complex disease with both multiple genetic and environmental...

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Rolph RC, Waltham M, Smith A, et al. Expanding Horizons for Abdominal Aortic Aneurysms. Aorta (Stamford). 2015;3(1):9-15doi: 10.12945/j.aorta.2015.14-041.
Rolph, R. C., Waltham, M., Smith, A., & Kuivaniemi, H. (2015). Expanding Horizons for Abdominal Aortic Aneurysms. Aorta (Stamford, Conn.), 3(1), 9-15. https://doi.org/10.12945/j.aorta.2015.14-041
Rolph, Rachel C, et al. "Expanding Horizons for Abdominal Aortic Aneurysms." Aorta (Stamford, Conn.) vol. 3,1 (2015): 9-15. doi: https://doi.org/10.12945/j.aorta.2015.14-041
Rolph RC, Waltham M, Smith A, Kuivaniemi H. Expanding Horizons for Abdominal Aortic Aneurysms. Aorta (Stamford). 2015 Feb 01;3(1):9-15. doi: 10.12945/j.aorta.2015.14-041. eCollection 2015 Feb. PMID: 26798751; PMCID: PMC4714933.
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Search for the tetraneutron using the reaction 4He( pi -, pi +)4n.

Physical review. C, Nuclear physics

Ahmad S, Armstrong DS, Azuelos G, Blecher M, Burnham RA, Clifford ET, Depommier P, Gorringe TP, Hasinoff MD, Larabee AJ, Macdonald JA, Poutissou JM, Poutissou R, Waltham CE, Wright DH.
PMID: 9966238
Phys Rev C Nucl Phys. 1989 Nov;40(5):2390-2393. doi: 10.1103/physrevc.40.2390.

No abstract available.

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Ahmad S, Armstrong DS, Azuelos G, et al. Search for the tetraneutron using the reaction 4He( pi -, pi +)4n. Phys Rev C Nucl Phys. 1989;40(5):2390-2393doi: 10.1103/physrevc.40.2390.
Ahmad, S., Armstrong, D. S., Azuelos, G., Blecher, M., Burnham, R. A., Clifford, E. T., Depommier, P., Gorringe, T. P., Hasinoff, M. D., Larabee, A. J., Macdonald, J. A., Poutissou, J. M., Poutissou, R., Waltham, C. E., & Wright, D. H. (1989). Search for the tetraneutron using the reaction 4He( pi -, pi +)4n. Physical review. C, Nuclear physics, 40(5), 2390-2393. https://doi.org/10.1103/physrevc.40.2390
Ahmad, et al. "Search for the tetraneutron using the reaction 4He( pi -, pi +)4n." Physical review. C, Nuclear physics vol. 40,5 (1989): 2390-2393. doi: https://doi.org/10.1103/physrevc.40.2390
Ahmad S, Armstrong DS, Azuelos G, Blecher M, Burnham RA, Clifford ET, Depommier P, Gorringe TP, Hasinoff MD, Larabee AJ, Macdonald JA, Poutissou JM, Poutissou R, Waltham CE, Wright DH. Search for the tetraneutron using the reaction 4He( pi -, pi +)4n. Phys Rev C Nucl Phys. 1989 Nov;40(5):2390-2393. doi: 10.1103/physrevc.40.2390. PMID: 9966238.
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Direct evidence for neutrino flavor transformation from neutral-current interactions in the Sudbury Neutrino Observatory.

Physical review letters

Ahmad QR, Allen RC, Andersen TC, D Anglin J, Barton JC, Beier EW, Bercovitch M, Bigu J, Biller SD, Black RA, Blevis I, Boardman RJ, Boger J, Bonvin E, Boulay MG, Bowler MG, Bowles TJ, Brice SJ, Browne MC, Bullard TV, Bühler G, Cameron J, Chan YD, Chen HH, Chen M, Chen X, Cleveland BT, Clifford ET, Cowan JH, Cowen DF, Cox GA, Dai X, Dalnoki-Veress F, Davidson WF, Doe PJ, Doucas G, Dragowsky MR, Duba CA, Duncan FA, Dunford M, Dunmore JA, Earle ED, Elliott SR, Evans HC, Ewan GT, Farine J, Fergani H, Ferraris AP, Ford RJ, Formaggio JA, Fowler MM, Frame K, Frank ED, Frati W, Gagnon N, Germani JV, Gil S, Graham K, Grant DR, Hahn RL, Hallin AL, Hallman ED, Hamer AS, Hamian AA, Handler WB, Haq RU, Hargrove CK, Harvey PJ, Hazama R, Heeger KM, Heintzelman WJ, Heise J, Helmer RL, Hepburn JD, Heron H, Hewett J, Hime A, Howe M, Hykawy JG, Isaac MC, Jagam P, Jelley NA, Jillings C, Jonkmans G, Kazkaz K, Keener PT, Klein JR, Knox AB, Komar RJ, Kouzes R, Kutter T, Kyba CC, Law J, Lawson IT, Lay M, Lee HW, Lesko KT, Leslie JR, Levine I, Locke W, Luoma S, Lyon J, Majerus S, Mak HB, Maneira J, Manor J, Marino AD, McCauley N, McDonald AB, McDonald DS, McFarlane K, McGregor G, Meijer Drees R, Mifflin C, Miller GG, Milton G, Moffat BA, Moorhead M, Nally CW, Neubauer MS, Newcomer FM, Ng HS, Noble AJ, Norman EB, Novikov VM, O'Neill M, Okada CE, Ollerhead RW, Omori M, Orrell JL, Oser SM, Poon AW, Radcliffe TJ, Roberge A, Robertson BC, Robertson RG, Rosendahl SS, Rowley JK, Rusu VL, Saettler E, Schaffer KK, Schwendener MH, Schülke A, Seifert H, Shatkay M, Simpson JJ, Sims CJ, Sinclair D, Skensved P, Smith AR, Smith MW, Spreitzer T, Starinsky N, Steiger TD, Stokstad RG, Stonehill LC, Storey RS, Sur B, Tafirout R, Tagg N, Tanner NW, Taplin RK, Thorman M, Thornewell PM, Trent PT, Tserkovnyak YI, Van Berg R, Van de Water RG, Virtue CJ, Waltham CE, Wang JX, Wark DL, West N, Wilhelmy JB, Wilkerson JF, Wilson JR, Wittich P, Wouters JM, Yeh M.
PMID: 12097025
Phys Rev Lett. 2002 Jul 01;89(1):011301. doi: 10.1103/PhysRevLett.89.011301. Epub 2002 Jun 13.

Observations of neutral-current nu interactions on deuterium in the Sudbury Neutrino Observatory are reported. Using the neutral current (NC), elastic scattering, and charged current reactions and assuming the standard 8B shape, the nu(e) component of the 8B solar flux...

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Ahmad QR, Allen RC, Andersen TC, et al. Direct evidence for neutrino flavor transformation from neutral-current interactions in the Sudbury Neutrino Observatory. Phys Rev Lett. 2002;89(1):011301doi: 10.1103/PhysRevLett.89.011301.
Ahmad, Q. R., Allen, R. C., Andersen, T. C., D Anglin, J., Barton, J. C., Beier, E. W., Bercovitch, M., Bigu, J., Biller, S. D., Black, R. A., Blevis, I., Boardman, R. J., Boger, J., Bonvin, E., Boulay, M. G., Bowler, M. G., Bowles, T. J., Brice, S. J., Browne, M. C., Bullard, T. V., Bühler, G., Cameron, J., Chan, Y. D., Chen, H. H., Chen, M., Chen, X., Cleveland, B. T., Clifford, E. T., Cowan, J. H., Cowen, D. F., Cox, G. A., Dai, X., Dalnoki-Veress, F., Davidson, W. F., Doe, P. J., Doucas, G., Dragowsky, M. R., Duba, C. A., Duncan, F. A., Dunford, M., Dunmore, J. A., Earle, E. D., Elliott, S. R., Evans, H. C., Ewan, G. T., Farine, J., Fergani, H., Ferraris, A. P., Ford, R. J., Formaggio, J. A., Fowler, M. M., Frame, K., Frank, E. D., Frati, W., Gagnon, N., Germani, J. V., Gil, S., Graham, K., Grant, D. R., Hahn, R. L., Hallin, A. L., Hallman, E. D., Hamer, A. S., Hamian, A. A., Handler, W. B., Haq, R. U., Hargrove, C. K., Harvey, P. J., Hazama, R., Heeger, K. M., Heintzelman, W. J., Heise, J., Helmer, R. L., Hepburn, J. D., Heron, H., Hewett, J., Hime, A., Howe, M., Hykawy, J. G., Isaac, M. C., Jagam, P., Jelley, N. A., Jillings, C., Jonkmans, G., Kazkaz, K., Keener, P. T., Klein, J. R., Knox, A. B., Komar, R. J., Kouzes, R., Kutter, T., Kyba, C. C., Law, J., Lawson, I. T., Lay, M., Lee, H. W., Lesko, K. T., Leslie, J. R., Levine, I., Locke, W., Luoma, S., Lyon, J., Majerus, S., Mak, H. B., Maneira, J., Manor, J., Marino, A. D., McCauley, N., McDonald, A. B., McDonald, D. S., McFarlane, K., McGregor, G., Meijer Drees, R., Mifflin, C., Miller, G. G., Milton, G., Moffat, B. A., Moorhead, M., Nally, C. W., Neubauer, M. S., Newcomer, F. M., Ng, H. S., Noble, A. J., Norman, E. B., Novikov, V. M., O'Neill, M., Okada, C. E., Ollerhead, R. W., Omori, M., Orrell, J. L., Oser, S. M., Poon, A. W., Radcliffe, T. J., Roberge, A., Robertson, B. C., Robertson, R. G., Rosendahl, S. S., Rowley, J. K., Rusu, V. L., Saettler, E., Schaffer, K. K., Schwendener, M. H., Schülke, A., Seifert, H., Shatkay, M., Simpson, J. J., Sims, C. J., Sinclair, D., Skensved, P., Smith, A. R., Smith, M. W., Spreitzer, T., Starinsky, N., Steiger, T. D., Stokstad, R. G., Stonehill, L. C., Storey, R. S., Sur, B., Tafirout, R., Tagg, N., Tanner, N. W., Taplin, R. K., Thorman, M., Thornewell, P. M., Trent, P. T., Tserkovnyak, Y. I., Van Berg, R., Van de Water, R. G., Virtue, C. J., Waltham, C. E., Wang, J. X., Wark, D. L., West, N., Wilhelmy, J. B., Wilkerson, J. F., Wilson, J. R., Wittich, P., Wouters, J. M., Yeh, M. (2002). Direct evidence for neutrino flavor transformation from neutral-current interactions in the Sudbury Neutrino Observatory. Physical review letters, 89(1), 011301. https://doi.org/10.1103/PhysRevLett.89.011301
Ahmad, Q R, et al. "Direct evidence for neutrino flavor transformation from neutral-current interactions in the Sudbury Neutrino Observatory." Physical review letters vol. 89,1 (2002): 011301. doi: https://doi.org/10.1103/PhysRevLett.89.011301
Ahmad QR, Allen RC, Andersen TC, D Anglin J, Barton JC, Beier EW, Bercovitch M, Bigu J, Biller SD, Black RA, Blevis I, Boardman RJ, Boger J, Bonvin E, Boulay MG, Bowler MG, Bowles TJ, Brice SJ, Browne MC, Bullard TV, Bühler G, Cameron J, Chan YD, Chen HH, Chen M, Chen X, Cleveland BT, Clifford ET, Cowan JH, Cowen DF, Cox GA, Dai X, Dalnoki-Veress F, Davidson WF, Doe PJ, Doucas G, Dragowsky MR, Duba CA, Duncan FA, Dunford M, Dunmore JA, Earle ED, Elliott SR, Evans HC, Ewan GT, Farine J, Fergani H, Ferraris AP, Ford RJ, Formaggio JA, Fowler MM, Frame K, Frank ED, Frati W, Gagnon N, Germani JV, Gil S, Graham K, Grant DR, Hahn RL, Hallin AL, Hallman ED, Hamer AS, Hamian AA, Handler WB, Haq RU, Hargrove CK, Harvey PJ, Hazama R, Heeger KM, Heintzelman WJ, Heise J, Helmer RL, Hepburn JD, Heron H, Hewett J, Hime A, Howe M, Hykawy JG, Isaac MC, Jagam P, Jelley NA, Jillings C, Jonkmans G, Kazkaz K, Keener PT, Klein JR, Knox AB, Komar RJ, Kouzes R, Kutter T, Kyba CC, Law J, Lawson IT, Lay M, Lee HW, Lesko KT, Leslie JR, Levine I, Locke W, Luoma S, Lyon J, Majerus S, Mak HB, Maneira J, Manor J, Marino AD, McCauley N, McDonald AB, McDonald DS, McFarlane K, McGregor G, Meijer Drees R, Mifflin C, Miller GG, Milton G, Moffat BA, Moorhead M, Nally CW, Neubauer MS, Newcomer FM, Ng HS, Noble AJ, Norman EB, Novikov VM, O'Neill M, Okada CE, Ollerhead RW, Omori M, Orrell JL, Oser SM, Poon AW, Radcliffe TJ, Roberge A, Robertson BC, Robertson RG, Rosendahl SS, Rowley JK, Rusu VL, Saettler E, Schaffer KK, Schwendener MH, Schülke A, Seifert H, Shatkay M, Simpson JJ, Sims CJ, Sinclair D, Skensved P, Smith AR, Smith MW, Spreitzer T, Starinsky N, Steiger TD, Stokstad RG, Stonehill LC, Storey RS, Sur B, Tafirout R, Tagg N, Tanner NW, Taplin RK, Thorman M, Thornewell PM, Trent PT, Tserkovnyak YI, Van Berg R, Van de Water RG, Virtue CJ, Waltham CE, Wang JX, Wark DL, West N, Wilhelmy JB, Wilkerson JF, Wilson JR, Wittich P, Wouters JM, Yeh M. Direct evidence for neutrino flavor transformation from neutral-current interactions in the Sudbury Neutrino Observatory. Phys Rev Lett. 2002 Jul 01;89(1):011301. doi: 10.1103/PhysRevLett.89.011301. Epub 2002 Jun 13. PMID: 12097025.
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Proton tracking for medical imaging and dosimetry.

Journal of instrumentation : an IOP and SISSA journal

Taylor JT, Allport PP, Casse GL, Smith NA, Tsurin I, Allinson NM, Esposito M, Kacperek A, Nieto-Camero J, Price T, Waltham C.
PMID: 29367858
J Instrum. 2015 Feb 10;10. doi: 10.1088/1748-0221/10/02/C02015.

For many years, silicon micro-strip detectors have been successfully used as tracking detectors for particle and nuclear physics experiments. A new application of this technology is to the field of particle therapy, where radiotherapy is carried out by use...

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Taylor JT, Allport PP, Casse GL, et al. Proton tracking for medical imaging and dosimetry. J Instrum. 2015;10doi: 10.1088/1748-0221/10/02/C02015.
Taylor, J. T., Allport, P. P., Casse, G. L., Smith, N. A., Tsurin, I., Allinson, N. M., Esposito, M., Kacperek, A., Nieto-Camero, J., Price, T., & Waltham, C. (2015). Proton tracking for medical imaging and dosimetry. Journal of instrumentation : an IOP and SISSA journal, 10. https://doi.org/10.1088/1748-0221/10/02/C02015
Taylor, J T, et al. "Proton tracking for medical imaging and dosimetry." Journal of instrumentation : an IOP and SISSA journal vol. 10 (2015). doi: https://doi.org/10.1088/1748-0221/10/02/C02015
Taylor JT, Allport PP, Casse GL, Smith NA, Tsurin I, Allinson NM, Esposito M, Kacperek A, Nieto-Camero J, Price T, Waltham C. Proton tracking for medical imaging and dosimetry. J Instrum. 2015 Feb 10;10. doi: 10.1088/1748-0221/10/02/C02015. PMID: 29367858; PMCID: PMC5777586.
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Ion trap mass spectrometry on a comet nucleus: the Ptolemy instrument and the Rosetta space mission.

Journal of mass spectrometry : JMS

Todd JF, Barber SJ, Wright IP, Morgan GH, Morse AD, Sheridan S, Leese MR, Maynard J, Evans ST, Pillinger CT, Drummond DL, Heys SC, Huq SE, Kent BJ, Sawyer EC, Whalley MS, Waltham NR.
PMID: 17154436
J Mass Spectrom. 2007 Jan;42(1):1-10. doi: 10.1002/jms.1147.

In May 2014, the Rosetta spacecraft is scheduled to rendezvous with the comet Churyumov-Gerasimenko ('67P'). One of the instruments on board the 'Lander' which will descend on to the surface of the comet is a miniaturised GC/MS system that...

Cite
Todd JF, Barber SJ, Wright IP, et al. Ion trap mass spectrometry on a comet nucleus: the Ptolemy instrument and the Rosetta space mission. J Mass Spectrom. 2007;42(1):1-10doi: 10.1002/jms.1147.
Todd, J. F., Barber, S. J., Wright, I. P., Morgan, G. H., Morse, A. D., Sheridan, S., Leese, M. R., Maynard, J., Evans, S. T., Pillinger, C. T., Drummond, D. L., Heys, S. C., Huq, S. E., Kent, B. J., Sawyer, E. C., Whalley, M. S., & Waltham, N. R. (2007). Ion trap mass spectrometry on a comet nucleus: the Ptolemy instrument and the Rosetta space mission. Journal of mass spectrometry : JMS, 42(1), 1-10. https://doi.org/10.1002/jms.1147
Todd, John F J, et al. "Ion trap mass spectrometry on a comet nucleus: the Ptolemy instrument and the Rosetta space mission." Journal of mass spectrometry : JMS vol. 42,1 (2007): 1-10. doi: https://doi.org/10.1002/jms.1147
Todd JF, Barber SJ, Wright IP, Morgan GH, Morse AD, Sheridan S, Leese MR, Maynard J, Evans ST, Pillinger CT, Drummond DL, Heys SC, Huq SE, Kent BJ, Sawyer EC, Whalley MS, Waltham NR. Ion trap mass spectrometry on a comet nucleus: the Ptolemy instrument and the Rosetta space mission. J Mass Spectrom. 2007 Jan;42(1):1-10. doi: 10.1002/jms.1147. PMID: 17154436.
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Radiative muon capture on carbon, oxygen, and calcium.

Physical review. C, Nuclear physics

Ahmad S, Armstrong DS, Azuelos G, Blecher M, Burnham RA, Clifford ET, Depommier P, Gorringe TP, Hasinoff MD, Larabee AJ, Macdonald JA, Mes H, Numao T, Poutissou JM, Poutissou R, Robertson BC, Summhammer J, Waltham CE, Wright DH.
PMID: 9967183
Phys Rev C Nucl Phys. 1991 Mar;43(3):1425-1447. doi: 10.1103/physrevc.43.1425.

No abstract available.

Cite
Ahmad S, Armstrong DS, Azuelos G, et al. Radiative muon capture on carbon, oxygen, and calcium. Phys Rev C Nucl Phys. 1991;43(3):1425-1447doi: 10.1103/physrevc.43.1425.
Ahmad, S., Armstrong, D. S., Azuelos, G., Blecher, M., Burnham, R. A., Clifford, E. T., Depommier, P., Gorringe, T. P., Hasinoff, M. D., Larabee, A. J., Macdonald, J. A., Mes, H., Numao, T., Poutissou, J. M., Poutissou, R., Robertson, B. C., Summhammer, J., Waltham, C. E., & Wright, D. H. (1991). Radiative muon capture on carbon, oxygen, and calcium. Physical review. C, Nuclear physics, 43(3), 1425-1447. https://doi.org/10.1103/physrevc.43.1425
Ahmad, et al. "Radiative muon capture on carbon, oxygen, and calcium." Physical review. C, Nuclear physics vol. 43,3 (1991): 1425-1447. doi: https://doi.org/10.1103/physrevc.43.1425
Ahmad S, Armstrong DS, Azuelos G, Blecher M, Burnham RA, Clifford ET, Depommier P, Gorringe TP, Hasinoff MD, Larabee AJ, Macdonald JA, Mes H, Numao T, Poutissou JM, Poutissou R, Robertson BC, Summhammer J, Waltham CE, Wright DH. Radiative muon capture on carbon, oxygen, and calcium. Phys Rev C Nucl Phys. 1991 Mar;43(3):1425-1447. doi: 10.1103/physrevc.43.1425. PMID: 9967183.
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