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Number of items at this level: 140.

B

Bacon, D R; Shaw, A (1993) Experimental validation of predicted temperature rises in tissue-mimicking materials. Phys. Med. Biol., 38 (11). pp. 1647-1659.

Baesso, R M; Costa-Felix, R P B; Miloro, P; Zeqiri, B (2019) Ultrasonic parameter measurement as a means of assessing the quality of biodiesel production. Fuel, 241. pp. 155-163. ISSN 00162361

Bauer, M*; Baker, C; Barham, R G; Hensel, J; Kling, C*; Trahms, L*; Koch, C*; Sander, T* (2013) Magnetoencephalography of deep lying auditory sources using acoustical devices for intra- and ultrasound stimulation. Biomedizinische Technik, 58 (1E).

Beissner, K*; Oosterbaan, W A*; Hekkenberg, R T*; Shaw, A (1996) European intercomparison of ultrasonic power measurements. Acustica - Acta Acust., 82. pp. 450-458.

Bobkova, S*; Gavrilov, L*; Khokhlova, V*; Shaw, A; Hand, J* (2010) Focusing of high intensity ultrasound through the rib cage using a therapeutic random phased array. Ultrasound Med. Biol., 36 (6). pp. 888-906.

Bornmann, P*; Hemsel, T*; Sextro, W*; Memoli, G; Hodnett, M; Zeqiri, B (2015) Cavitation detection by a self-sensing ultrasound transducer. tm-Technisches Messen, 82 (2). pp. 73-84.

Bornmann, P*; Hemsel, T*; Sextro, W*; Memoli, G; Hodnett, M; Zeqiri, B (2014) Self-sensing ultrasound transducer for cavitation detection. In: IEEE International Ultrasonics Symposium 2014, 3-6 September 2014, Chicago, IL, USA.

Butterworth, I; Barrie, J; Zeqiri, B; Zauhar, G*; Parisot, B (2012) Exploiting thermochromic materials for the rapid quality assurance of physiotherapy ultrasound treatment heads. Ultrasound Med. Biol., 38 (5). pp. 767-776.

C

Choi. M J*,, ; Cho, S C*; Kang, G S*; Paeng, D G*; Lee, K I*; Hodnett, M; Zeqiri, B; Coleman, A J* (2008) Quantification of acoustic cavitation produced by a clinical extracorporeal shock wave therapy system using a passive cylindrical detector. Mod. Phys. Lett. B, 22 (11). pp. 809-814.

Civale, J; Rivens, I; Shaw, A; ter Haar, G (2018) Focused ultrasound transducer spatial peak intensity estimation: a comparison of methods. Physics in Medicine and Biology, 63 (5). 055015

D

Durando, G*; Guglielmone, C*; Haller, J*; Georg, O*; Shaw, A; Martin, E*; Karaboce, B* (2015) Towards comparison of ultrasound dose measurements - current capabilities and open challenges. Physics Procedia, 70. pp. 1114-1118.

E

Esward, T J (1998) An assessment of medical ultrasonic field measurement methods: final technical report for EC contract no. MAT1-CT940064. NPL Report. CMAM 17

Esward, T J; Persson, H*; Kollman, C*; Chinchurreta Segovia, F J*; Beissner, K*; Ludwig, G*; Ward, B*; Whittingham, T A*; Eisenberg, A*; Pessel, M*; Hekkenberg, R T*; Duck, F A*; Knuuttila, J* (2000) A european comparison of medical ultrasonic field measurements: interpreting IEC 61157. Acustica - Acta Acust., 86 (6). pp. 1000-1010.

Esward, T J; Robinson, S P (1999) Extending the frequency range of the NPL primary standard laser interferometer for hydrophone calibrations to 60MHz. IEEE Trans. Ultrason. Feroelectr. Freq. Control, 46 (3). pp. 737-744.

F

Fonseca, M*; Saratoon, T*; Zeqiri, B; Beard, P*; Cox, B* (2016) Sensitivity of quantitative photoacoustic tomography inversion schemes to experimental uncertainty. Proc. SPIE - Int. Soc. Opt. Eng., 9708. 97084X

Fonseca, M*; Zeqiri, B; Beard, P C*; Cox, B T* (2016) Characterisation of a phantom for multiwavelength quantitative photoacoustic imaging. Phys. Med. Biol., 61 (13). pp. 4950-4973.

Fonseca, M*; Zeqiri, B; Beard, P*; Cox, B* (2015) Characterisation of a PVCP-based tissue-mimicking phantom for quantitative photoacoustic imaging. Proc. SPIE - Int. Soc. Opt. Eng., 9539. 953911

Fury, C; Harfield, C; Jones, P H*; Stride, E*; Memoli, G (2014) Experimental characterisation of holographic optical traps for microbubbles. Proc. SPIE - Int. Soc. Opt. Eng., 9126. 91263L

Fury, C R*; Jones, P H*; Memoli, G (2014) Multi scale manipulation of microbubbles employing simultaneous optical and acoustical trapping. Proc. SPIE - Int. Soc. Opt. Eng., 9164. 91642Z

Fury, C*; Gélat, P N; Jones, P H*; Memoli, G (2014) Laser vibrometry characterisation of a microfluidic lab-on-a-chip device: a preliminary investigation. J. Phys.: Conf. Ser., 498. 012002

G

Gatto, M*; Memoli, G; Shaw, A; Sadhoo, N; Gélat, P N; Harris, R A* (2012) Three-dimensional printing (3DP) of neonatal head phantom for ultrasound: thermocouple embedding and simulation of bone. Med. Eng. Phys., 34 (7). pp. 929-937.

Gelat, P N; Hodnett, M; Zeqiri, B (2000) Establishing a reference ultrasonic cleaning vessel: Part 1 supporting infrastructure and early measurements. NPL Report. CMAM 55

Gelat, P N; Shaw, A (2015) Relationship between acoustic power and acoustic radiation force on absorbing and reflecting targets for spherically focusing radiators. Ultrasound Med. Biol., 41 (3). pp. 832-844.

Gelat, P N; Ter Haar, G*; Saffari, N* (2013) Towards the optimisation of acoustic fields for ablative therapies of tumours in the upper abdomen. J. Phys.: Conf. Ser., 547. 012002

Gelat, P N; ter Haar, G*; Saffari, N* (2012) The optimisation of acoustic fields for ablative therapies of tumours in the upper abdomen. Phys. Med. Biol., 57 (24). pp. 8471-8497.

Gélat, P N; ter Haar, G*; Saffari, N* (2011) Modelling of the acoustic field of a multi-element HIFU array scattered by human ribs. Phys. Med. Biol., 56 (17). pp. 5553-5581.

Gélat, P N; ter Haar, G*; Saffari, N* (2013) Scattering of high-intensity focused ultrasound by the ribs: constrained optimisation with a complex surface impedance boundary condition. J. Acoust. Soc. Am., 134 (5). p. 4213.

Gélat, P N; ter Haar, G*; Saffari, N* (2013) Scattering of high-intensity focused ultrasound by the ribs: constrained optimisation with a complex surface impedance boundary condition. J. Acoust. Soc. Am., 134 (5). p. 4213.

Gélat, P N; ter Haar, G*; Saffari, N* (2012) Scattering of the field of a multi-element phased array by human ribs. J. Phys.: Conf. Ser., 353. 012010

Gélat, P N; ter Haar, G*; Saffari, N* (2014) A comparison of methods for focusing the field of a HIFU array transducer through human ribs. Phys. Med. Biol., 59 (12). pp. 3139-3171.

Gélat, P N; ter Haar, G*; Saffari, N* (2012) The optimisation of acoustic fields for ablative therapies of tumours in the upper abdomen. Phys. Med. Biol., 57 (24). p. 8471.

Gélat, P N; terHaar, G*; Saffari, N* (2014) HIFU scattering by the ribs: constrained optimisation with a complex surface impedance boundary condition. J. Phys.: Conf. Ser., 498. 012004

H

Haller, J; Wilkens, V; Shaw, A (2018) Determination of acoustic cavitation probabilities and thresholds using a single focused transducer to induce and detect acoustic cavitation events: I. Method and terminology. Ultrasound in Medicine and Biology, 44 (2). pp. 377-396.

Haller, J*; Jenderka, K V*; Durando, G*; Shaw, A (2012) A comparative evaluation of three hydrophones and a numerical model in high intensity focused ultrasound fields. J. Acoust. Soc. Am., 131 (2). pp. 1121-1130.

Haller, J*; Jenderka, K V*; Shaw, A; Durando, G*; Karaboce, B* (2012) Metrology of high-intensity therapeutic ultrasound within the EMRP project 'External beam cancer therapy' . Characterization of sources. Metrologia, 49 (5). S267-S270

Haller, J*; Jenderka, K-V*; Koch, C*; Seifert, F*; Klepsch, T*; Shaw, A (2012) A low-cost, easy-to-handle calibration phantom for MR thermometry in HIFU fields. AIP Conf. Proc., 1481. pp. 125-130.

Haller, J*; Jenderka, K-V*; Seifert, F*; Klepsch, T*; Martin, E; Shaw, A; Durando, G*; Guglielmone, C*; Girard, F* (2012) A comparison of three different types of temperature measurements in HITU fields. Metrologia, 49 (5). S279-S281

Haller, J*; Jenderka, K-V*; Shaw, A; Durando, G*; Karaboumice, B* (2012) Metrology of high-intensity therapeutic ultrasound within the EMRP project 'external beam cancer therapy'. Characterization of sources. Metrologia, 49 (5). S267-S270

Hand, J W*; Shaw, A; Sadhoo, N; Rajagopal, S*; Dickinson, R J*; Gavrilov, L R* (2009) A random phased array device for delivery of high intensity focused ultrasound. Phys. Med. Biol., 54 (19). pp. 5675-5693.

Hand, J W*; Shaw, A; Sadhoo, N; Rajagopol, S*; Dickinson, R J*; Gavrilov, L R* (2009) A random phased array device for delivery of high intensity focused ultrasound. Phys. Med. Biol., 54 (19). pp. 5675-5693.

Harfield, C J*; Ovenden, N C*; Memoli, G; Jones, P H*; Stride, E P J* (2013) Theoretical characterisation of the radial and translational motion of coated microbubbles under acoustic excitation. J. Phys.: Conf. Ser., 457. 012001

Harfield, C*; Fury, C R; Memoli, G; Jones, P*; Ovenden, N*; Stride, E* (2016) Analysis of the uncertainty in microbubble characterization. Ultrasound Med. Biol., 42 (6). pp. 1412-1418.

Harris, G R*; Preston, R C; De Reggi, A S* (2000) The impact of piezoelectric PVDF on medical ultrasound exposure measurements, standards and regulations. IEEE Trans. Ultrason. Feroelectr. Freq. Control, 47 (6). pp. 1321-1335.

Hekkenberg, R T*; Beissner, K*; Zeqiri, B; Bezemer, R A*; Hodnett, M (2001) Validated ultrasonic power measurements up to 20 W. Ultrasound Med. Biol., 27 (3). pp. 427-438.

Hekkenberg, R T*; Reibold, R*; Zeqiri, B (1994) Development of standard measurement methods for essential properties of ultrasound therapy equipment. Ultrasound Med. Biol., 20 (1). pp. 83-98.

Hodnett, M; Gélat, P N; Zeqiri, B (2002) Aperture-based measurement of the effective radiating area of physiotherapy treatment heads: a new rapid system and detailed performance evaluation. NPL Report. CMAM 81

Hodnett, M; Zeqiri, B (2008) Industrial trialling of a novel sensor providing objective measurements of the effectiveness of high power ultrasonic equipment -final project report. NPL Report. AC 4

Hodnett, M; Zeqiri, B (2008) Towards a reference ultrasonic cavitation vessel. Part 2 - investigating the spatial variation and acoustic pressure threshold of inertial cavitation in a 25 kHz ultrasound field. IEEE Trans. Ultrason. Feroelectr. Freq. Control, 55 (8). pp. 1809-1822.

Hodnett, M; Zeqiri, B (2004) A detector for monitoring the onset of cavitation during therapy-level measurements of ultrasonic power. J. Phys., Conf. Ser., 1. pp. 112-117.

Hodnett, M; Zeqiri, B (1997) A strategy for the development and standardisation of measurement methods for high power field/cavitating ultrasonic fields: review of high power field measurement techniques. Ultrasonics Sonochemistry, 4. pp. 273-288.

Hodnett, M; Zeqiri, B (1997) A strategy for the development and standardisation of measurement methods for high power/cavitating ultrasonic fields: Review of high power field measurement techniques. NPL Report. CIRA(EXT)015

Hurrell, A M*; Rajagopal, S (2017) The practicalities of obtaining and using hydrophone calibration data to derive pressure waveforms. IEEE Trans. Ultrason. Feroelectr. Freq. Control, 64 (1). pp. 126-140.

I

Ibanez, I*; Hodnett, M; Zeqiri, B; Frota, M N* (2016) Correlating inertial acoustic cavitation emissions with material erosion resistance. Physics Procedia, 87. pp. 16-23.

K

Karaböce, B*; Gülmez, Y*; Rajagapol, S*; Shaw, A (2011) Instantaneous input electrical power measurement of HITU transducers. J. Phys., Conf. Ser., 279. 012011

Kenwright, D A*; Sadhoo, N; Rajagopal, S; Anderson, T*; Moran, C M*; Hadoke, P W*; Gray, G A*; Zeqiri, B; Hoskins, P R* (2014) Acoustic assessment of Konjac-Carrageenan tissue-mimicking material at 5-60 MHz. Ultrasound Med. Biol., 40 (12). pp. 2895-2902.

Khokhlova, V A*; Shmeleva, S M*; Gavrilov, L R*; Martin, E; Sadhoo, N; Shaw, A (2013) Infrared mapping of ultrasound fields generated by medical transducers: feasibility of determining absolute intensity levels. J. Acoust. Soc. Am., 134 (2). pp. 1586-1597.

Koukoulas, T; Rajagopal, S; Robinson, S P; Moss, B*; Zeqiri, B; Theobald, P D (2013) Primary ultrasonic interferometer photodiode characterisation using frequency-modulated laser wavefront radiation. Metrologia, 50 (6). pp. 572-579.

M

Martin, E M; Shaw, A; Faruqui, N; Shaw, M (2013) Accurate quantification and delivery of thermal dose to cells in culture. J. Acoust. Soc. Am., 134 (5). p. 4182.

Martin, E M; Shaw, A; Faruqui, N; Shaw, M (2013) Accurate quantification and delivery of thermal dose to cells in culture. J. Acoust. Soc. Am., 134 (5). p. 4182.

Memoli, G; Baxter, K; Jones, H; Mingard, K; Zeqiri, B (2018) Acoustofluidic Measurements on Polymer-Coated Microbubbles: Primary and Secondary Bjerknes Forces. Micromachines, 9 (8). 404 ISSN 2072-666X

Memoli, G; Fury, C R; Baxter, K O; Gelat, P N*; Jones, P H* (2017) Acoustic force measurements on polymer-coated microbubbles in a microfluidic device. J. Acoust. Soc. Am., 141 (5). pp. 3364-3378.

Memoli, G; Gélat, P N; Hodnett, M; Zeqiri, B (2012) Characterisation and improvement of a reference cylindrical sonoreactor. Ultrasonics Sonochemistry, 19 (4). pp. 939-952.

Miloro, P*; Civale, J*; Rivens, I*; Shaw, A (2016) The feasibility of thermal imaging as a future portal imaging device for therapeutic ultrasound. Ultrasound Med. Biol., 42 (8). pp. 2033-2038.

Morris, H*; Riven, I*; Shaw, A; ter Haar, G* (2008) Investigation of the viscous heating artefact arising from the use of thermocouples in a focused ultrasound field. Phys. Med. Biol., 53 (17). pp. 4759-4776.

Morris, P*; Hurrell, A*; Shaw, A; Zhang, E*; Beard, P* (2009) A Fabry-Perot fibre optic ultrasonic hydrophone for the simultaneous measurement of temperature and acoustic pressure. J. Acoust. Soc. Am., 125 (6). pp. 3611-3622.

N

Nalesso, S; Bussemaker, M J; Sear, R P; Hodnett, M; Lee, J (2019) Development of Sodium Chloride Crystal Size during Antisolvent Crystallization under Different Sonication Modes. Crystal Growth & Design, 19 (1). pp. 141-149. ISSN 1528-7483

P

Pahk, K J; Gelat, P; Sinden, D; Dhar, D K; Saffari, N (2017) Numerical experimental study of mechanisms involved in boiling histotripsy. Ultrasound in Medicine and Biology, 43 (12). pp. 2848-2861.

Pay, N M; Shaw, A; Bond, A D (1998) Evaluation of potential bone mimicking materials for ultrasound thermal test objects. NPL Report. CMAM 10

Preston, R C (1999) Book Review - Ultrasonic Instruments and Devices 1. Ultrasound in Medicine and Biology, 25 (3). pp. 487-488.

Preston, R C (1993) Controversies in ultrasound: exposure limits or no limits - the current IEC position. BMUS Bulletin (British Medical Ultrasound Society) (Nov). pp. 41-42.

Preston, R C (2000) Standards and measurement. Ultrasound Med. Biol., 26 (Supp. ). S63-S67

Preston, R C (2000) Who needs specification standards in medical ultrasound? BMUS Bulletin (Novemb). pp. 10-15.

Preston, R C; Bond, A D (1997) An experimental study of the reflection from spherical and flat ended cylindrical targets suitable for fetal Doppler performance assessment. Ultrasound Med. Biol., 23 (1). pp. 117-128.

Preston, R C; Robinson, S P (1999) European comparison of ultrasonic hydrophone calibration. Metrologia, 36. pp. 345-349.

Preston, R C; Robinson, S P (1999) European comparison of ultrasonic hydrophone calibrations. Metrologia, 36. pp. 345-349.

Preston, R C; Shaw, A (2001) Recommended ultrasound field safety classification for medical diagnostic devices. Measurement Good Practice Guide. 50

Preston, R C; Shaw, A (1995) That sounds better! Acoustic output - the key to ultrasound instrument accuracy. Qual. Today (Februa). 18 - 21

R

Rajagopal, S; Fury, C; Zeqiri, B (2015) Primary calibration of 1 mm membrane hydrophones for BIPM/CIPM key comparison CCAUV.U-K4 - final description of NPL results. NPL Report. AC 15

Rajagopal, S; Sadhoo, N; Zeqiri, B (2015) Reference characterisation of sound speed and attenuation of the IEC agar-based tissue-mimicking material up to a frequency of 60 MHz. Ultrasound Med. Biol., 41 (1). pp. 317-333.

Rajagopal, S; Sainsbury, T; Treeby, B E; Cox, B T (2018) Laser generated ultrasound sources using carbon-polymer nanocomposites for high frequency metrology. The Journal of the Acoustical Society of America, 144 (2). pp. 584-597. ISSN 0001-4966

Rajagopal, S; Shaw, A (2012) The buoyancy method - a potential new primary ultrasound power standard. Metrologia, 49 (3). pp. 327-339.

Rajagopal, S; Treeby, B E; Cox, B T (2018) Effect of Backing on Carbon-Polymer Nanocomposite Sources for Laser Generation of Broadband Ultrasound Pulses. In: 2018 IEEE International Ultrasonics Symposium, 22-25 October 2018, Kobe, Japan.

Rajagopal, S; Zeqiri, B (2013) Recommendations on the requirements of measurement infrastructure for elastography metrology. NPL Report. AC 8

Rajagopal, S; Zeqiri, B; Cox, B* (2015) A scoping study of the potential of photoacoustics to support primary standard calibration of medical ultrasonic hydrophones up to 100 MHz. NPL Report. AC 14

Rajagopal, S; Zeqiri, B; Gélat, P N (2014) Calibration of miniature medical ultrasonic hydrophones for frequencies in the range 100 to 500 kHz using an ultrasonically absorbing waveguide. IEEE Trans. Ultrason. Feroelectr. Freq. Control, 61 (5). pp. 765-778.

Robinson, S P; Preston, R C; Green, G J (1999) A european comparison of ultrasonic hydrophone calibrations. Metrologia, 36 (4). pp. 345-350.

Robinson, S P; Preston, R C; Smith, M R*; Millar, C* (2000) PVDF reference hydrophones development in the UK - from fabrication and lamination to use as secondary standards. IEEE Trans. Ultrason. Feroelectr. Freq. Control, 47 (6). pp. 1336-1344.

S

Sarno, D T; Hodnett, M; Wang, L; Zeqiri, B (2017) An objective comparison of commercially-available cavitation meters. Ultrasonics Sonochemistry, 34. pp. 354-364.

Shaw, A (2013) Just doing our DUTy! - an international project on dosimetry for ultrasound therapy. J. Acoust. Soc. Am., 134 (5). p. 4152.

Shaw, A (2013) Just doing our DUTy! - an international project on dosimetry for ultrasound therapy. J. Acoust. Soc. Am., 134 (5). p. 4152.

Shaw, A (1994) Prediction of temperature rise in layered media from measured ultrasonic intensity data. Phys. Med. Biol., 39. 1203 -1218

Shaw, A (2008) A buoyancy method for the measurement of total ultrasound power generated by HIFU transducers. Ultrasound Med. Biol., 34 (8). pp. 1327-1342.

Shaw, A; Clemence, M* (2003) MR imaging of temperature rise in ultrasound fields of diagnostic relevance. NPL Report. CAIR 7

Shaw, A; Hekkenberg, R* (2007) Standards to support performance evaluation for diagnostic ultrasound imaging equipment. NPL Report. AC 2

Shaw, A; Hodnett, M (2008) Calibration and measurement issues for therapeutic ultrasound. Ultrasonics, 48 (4). pp. 234-252.

Shaw, A; Khokhlova, V*; Bobkova, S*; Gavrilov, L*; Hand, J* (2011) Calibration of HIFU intensity fields measured using an infra-red camera. J. Phys., Conf. Ser., 279. 012019

Shaw, A; Nunn, J (2010) The feasibility of an infrared system for real-time visualisation and mapping of ultrasound fields. Phys. Med. Biol., 55 (11). N321-N327

Shaw, A; Pay, N M; Bond, A D; Preston, R C (1998) Temperature rise from pulsed doppler ultrasound. European Journal of Ultrasound, 7 (Suppl.). S13.

Shaw, A; Pay, N M; Preston, R C (1998) Assessment of the likely thermal index values for pulsed Doppler ultrasonic equipment - Stages II and III: experimental assessment of scanner/transducer combinations. NPL Report. CMAM 12

Shaw, A; Pay, N M; Preston, R C; Bond, A D (1999) Proposed standard thermal test object for medical ultrasound. Ultrasound Med. Biol., 25 (1). pp. 121-132.

Shaw, A; Pay, N M; Preston, R C; Bond, A D (1999) A proposed standard thermal test object for medical ultrasound. Ultrasound Med. Biol., 25 (1). pp. 121-132.

Shaw, A; Preston, R C (1995) The NPL Ultrasound Beam Calibrator - cost effective measurements to IEC 1157. In: Proc. 1995 World Congress on Ultrasonics, September 1995, Berlin, Germany.

Shaw, A; Preston, R C (1994) Recent developments in the NPL ultrasound beam calibrator. In: Abstracts of the Institute of Physics Annual Congress, 1994, Brighton.

Shaw, A; Preston, R C; Bacon, D R (1996) Perfusion corrections for ultrasonic heating in non-perfused media. Ultrasound Med. Biol., 22 (2). pp. 203-216.

Shaw, A; Preston, R C; Bond, A D (1997) Assessment of the likely thermal index values for pulsed Doppler ultrasonic equipment - Stage 1: calculation based on manufacturers' data. NPL Report. CIRA(EXT)018

Shaw, A; ter Haar, G* (2006) Requirements for measurement standards in high intensity focused ultrasound (HIFU) fields. NPL Report. DQL-AC 015

Shaw, A; ter Haar, G*; Haller, J*; Wilkens, V* (2015) Towards a dosimetric framework for therapeutic ultrasound. Int. J. Hyperthermia, 31 (2). pp. 182-192.

Sinden, D; Rajagopal, S; Chaggares, N C; Pang, G; Ivanytskyy, O (2017) Reducing uncertainties for spatial averaging at high frequencies. In: 2017 IEEE International Ultrasonics Symposium (IUS), 6-9 September 2017, Washington DC, USA.

Skelton, S E*; Sergides, M*; Memoli, G; Marago, O M*; Jones, P H* (2012) Optical sqeezing of microbubbles: ray optics and mie scattering calculations. Proc. SPIE - Int. Soc. Opt. Eng., 8458. 84581F

Skelton, S E*; Sergides, M*; Memoli, G; Marago, O M*; Jones, P H* (2012) Trapping and deformation of microbubbles in a dual beam fibre-optic trap. J. Opt., 14 (7). 075706

Smart, K (1998) An initial review of transducers and calibration methods suitable for airborne ultrasound measurement standards. NPL Report. CMAM 27

Smith, R*; Jones, L D*; Zeqiri, B; Hodnett, M (1998) Ultrasonic C-scan standardisation for fibre-reinforced polymer composites - minimising the uncertainties in attenuation measurements. Insight, 40 (1). pp. 34-43.

Smith, R*; Zeqiri, B; Jones, L D*; Hodnett, M (1998) Nonlinear propagation in water and its effect on ultrasonic C-scanning. Insight, 40 (1). pp. 12-19.

Sutton, Y C; McBride, K*; Pye, S* (2006) An ultrasound mini-balance for measurement of therapy level ultrasound. Phys. Med. Biol., 51 (14). pp. 3397-3404.

T

Theobald, P D (2009) Optical calibration for both out-of-plane and in-plane displacement sensitivity of acoustic emission sensors. Ultrasonics, 49 (8). pp. 623-627.

Theobald, P D; Zeqiri, B; Avison, J (2008) Couplants and their influence on AE sensor sensitivity. J. Acoust. Emiss., 26. pp. 91-97.

Tzanakis, I*; Hodnett, M; Lebon, G S B*; Dezhkunov, N*; Eskin, D G* (2016) Calibration and performance assessment of an innovative high-temperature cavitometer. Sens. Actuators A, Phys., 240. pp. 57-69.

Tzanakis, I*; Hodnett, M; Lebon, G S B*; Eskin, D G*; Pericleous, K* (2016) Fundamental studies on cavitation melt processing. IOP Conf. Ser.: Mater. Sci. Eng., 129. 012068

W

Wang, L S; Memoli, G; Butterworth, I; Hodnett, M; Zeqiri, B (2012) Characterisation of a multi-frequency cavitation vessel. In: International Symposium on Ultrasound in the Control of Industrial Processes (UCIP 2012), 18-20 April 2012, Madrid, Spain.

Wang, L S; Memoli, G; Hodnett, M; Butterworth, I; Sarno, D; Zeqiri, B (2015) Towards a reference cavitating vessel Part III - design and acoustic pressure characterization of a multi-frequency sonoreactor. Metrologia, 52 (4). pp. 575-594.

Wang, L S; Memoli, G; Hodnett, M; Zeqiri, B (2015) Dynamic behaviour of laser nucleated bubbles in a focused ultrasound field. In: 2015 IEEE International Ultrasonic Symposium (IUS), 21-24 October 2015, Taipei, Taiwan.

Z

Zeqiri, B (1997) Calibration and safety of physiotherapy ultrasound equipment. Physiotherapy, 83 (10). pp. 559-560.

Zeqiri, B (1998) Physiotherapy ultrasound: setting the standard. Merck Scientific Review, 16. p. 5.

Zeqiri, B; Baker, C; Alosa, G*; Wells, P N T*; Hai-Dong Liang*, (2013) Quantitative ultrasonic computed tomography using phase-insensitive pyroelectric detectors. Phys. Med. Biol., 58 (15). pp. 5237-5268.

Zeqiri, B; Barrie, J* (2008) Evaluation of a novel solid-state method for determining the acoustic power generated by physiotherapy ultrasound transducers. Ultrasound Med. Biol., 34 (9). pp. 1513-1527.

Zeqiri, B; Bickley, C J (2000) A new anechoic material for medical ultrasonic applications. Ultrasound Med. Biol., 26 (3). pp. 481-5.

Zeqiri, B; Bond, A D (1993) Development of standard measurement methods for essential properties of ultrasound therapy equipment. NPL Report. RSA(EXT)0036

Zeqiri, B; Cook, A; Retat, L*; Civale, J*; ter Haar, G* (2015) On measurement of the acoustic nonlinearity parameter uisng the finite amplitude insertion substitution (FAIS) technique. Metrologia, 52 (2). pp. 406-422.

Zeqiri, B; Hodnett, M (2010) Measurements, phantoms and standardisation. Proc. Inst. Mech. Eng. H, J. Eng. Med., 224 (H2). pp. 375-391.

Zeqiri, B; Hodnett, M (1997) Standardisation of procedures for ultrasonic inspection of polymer matrix composites: transducer characterisation and materials evaluation. NPL Report. CMAM 9

Zeqiri, B; Hodnett, M (1998) A new method for measuring the effective radiating area of physiotherapy treatment heads. Ultrasound Med. Biol., 24 (5). pp. 761-770.

Zeqiri, B; Hodnett, M (1998) A systematic investigation of the effect of collimators on the characteristics of ultrasonic NDT transducers. Insight, 40 (1). pp. 28-33.

Zeqiri, B; Hodnett, M (1998) A systematic investigation of the effect of collimators on the characteristics of ultrasonic NDT transducers. Insight, 40 (4). pp. 28-33.

Zeqiri, B; Hodnett, M (1998) A systematic investigation of the effect of collimators on the characteristics of ultrsonic NDT transducers. Insight, 40 (1). pp. 28-34.

Zeqiri, B; Hodnett, M; Leighton, T G* (1997) A strategy for the development and standardisation of measurement methods for high power/cavitating ultrasound fields: Final project report. NPL Report. CIRA(EXT)016

Zeqiri, B; Reibold, R*; Hekkenberg, R T* (1994) Development of standard measurement methods for essential properties of ultrasound therapy equipment. Ultrasound Med. Biol., 20 (1). pp. 83-98.

Zeqiri, B; Scholl, W*; Robinson, S P (2010) Measurement and testing of the acoustic properties of materials: A review. Metrologia, 47 (2). S156-S171

Zeqiri, B; Scholl, W*; Robinson, S P (2010) Measurement and testing of the acoustic properties of materials: a review. Metrologia, 47 (2). S156-S171

Zeqiri, B; Zauhar, G*; Hodnett, M; Barrie, J* (2011) Progress in developing a thermal method for measuring the output power of medical transducers that exploits the pyroelectric effect. Ultrasonics, 51 (4). pp. 420-424.

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This list was generated on Thu May 23 04:09:20 2019 BST.