# Publications by: Kenneth Leong

# Also publishes as (K.T. Leong, K. Leong, Kenneth Tak Ming Leong)

Up a level |

**13**.

Mazierska, Janina, Leong, Kenneth, Ledenyov, Dimitri, Rains, Adam, Zuchowski, Nina, and Krupka, Jerzy
(2014)
*Microwave measurements of surface resistance and complex conductivity of NdBaCuO films.*
In: Advances in Science and Technology (95), pp. 162-168. From: 6th Forum on New Materials, 14-20 June 2014, Montecatini Terme.

Jacob, Mohan V., Mazierska, Janina, Leong, Kenneth, Ledenyov, Dimitri, and Krupka, Jerzy
(2003)
*Surface resistance measurements of HTS thin films using SLAO dielectric resonator.*
IEEE Transactions on Applied Superconductivity, 13 (2).
pp. 2909-2912.

Leong, K., Mazierska, J., Jacob, M.V., Ledenyov, D., and Batt, S.
(2002)
*Comparing unloaded Q-factor of a high-Q dielectric resonator measured using the transmission mode and reflection mode methods involving S-parameters circle fitting.*
In: Microwave Symposium Digest 2002 (3), pp. 1665-1668. From: IEEE MTT-S International Microwave Symposium, 2-7 June 2002, Seattle, WA, USA.

Jacob, Mohan V., Mazierska, Janina, Leong, Kenneth, and Krupka, Jerzy
(2002)
*Microwave properties of low-loss polymers at cryogenic temperatures.*
IEEE Transactions on Microwave Theory and Techniques, 50 (2).
pp. 474-480.

Leong, Kenneth, and Mazierska, Janina
(2002)
*Precise measurements of the Q factor of dielectric resonators in the transmission mode: accounting for noise, crosstalk, delay of uncalibrated lines, coupling loss, and coupling reactance.*
IEEE Transactions on Microwave Theory and Techniques, 50 (9).
pp. 2115-2127.

Leong, Kenneth, and Mazierska, Janina
(2001)
*Accurate measurements of surface resistance of HTS films using a novel transmission mode Q-factor technique.*
Journal of Superconductivity, 14 (1).
pp. 93-103.

Jacob, M.V., Mazierska, J., Leong, K., and Krupka, J.
(2001)
*Novel method for calculation and measurement of unloaded Q-factor of superconducting dielectric resonators.*
In: Microwave Symposium Digest 2001 (3), pp. 1993-1996. From: 2001 IEEE MTT-S International Microwave Symposium, 20-25 May 2001, Phonenix, AZ.

Jacob, Mohan, Mazierska, Janina, Leong, Kenneth, and Krupka, Jerzy
(2001)
*Simplified method for measurements and calculations of coupling coefficients and Q^o factor of high-temperature
superconducting dielectric resonators.*
IEEE Transactions on Microwave Theory and Techniques, 49 (12).
2401- 2407.

Leong, Kenneth Tak Ming
(2000)
*Precise measurements of surface resistance of high temperature superconducting thin films using a novel method of Q-factor computations for sapphire dielectric resonators in the transmission mode.*
PhD thesis, James Cook University.

Mazierska, J., Leong, K.T., and Jacob, M.V.
(2000)
*Microwave characterisation of superconducting materials: what accuracy can be achieved in surface resistance measurements using the Hakki-Coleman dielectric resonators?*
In: Proceedings of the 2000 Asia-Pacific Microwave Conference, pp. 608-611. From: 2000 Asia-Pacific Microwave Conference, 3-6 December 2000, Sydney, NSW, Australia.

Leong, Kenneth, Mazierska, Janina, and Krupka, Jerzy
(1997)
*Measurements of unloaded Q-factor of transmission mode dielectric resonators.*
In: 1997 IEEE MTT-S International Microwave Symposium Digest (3), pp. 1639-1642. From: 1997 IEEE MTT-S International Microwave Symposium, 8-13 June 1997, Denver, Colorado, USA.

Savvides, Nick, Katsaros, Alex, Reilly, David, Foley, Cathy, Leong, Kenneth, and Ceremuga, Janina
(1996)
*Microwave properties and microstructure of Y1Ba2Cu3O7 thin films.*
Czechoslovak Journal of Physics, 46 (2 Supplement).
pp. 1109-1110.

Leong, Kenneth, Grabovickic, Robert, and Ceremuga, Janina
(1996)
*Review of methods for determining the loaded Q-factor of microwave resonators.*
In: Proceedings of the Australian and New Zealand Institutes of Physics 20th Annual Condensed Matter Physics Meeting, TP30-TP30. From: ANZIP 1996: Australian and New Zealand Institutes of Physics 20th Annual Condensed Matter Physics Meeting, 30 January - 2 February 1996, Wagga Wagga, NSW.