C J B Ford
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Explore the profile of C J B Ford including associated specialties, affiliations and a list of published articles.
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16
Citations
75
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Recent Articles
1.
Jin Y, Tsyplyatyev O, Moreno M, Anthore A, Tan W, Griffiths J, et al.
Nat Commun
. 2019 Jun;
10(1):2821.
PMID: 31249302
Power laws in physics have until now always been associated with a scale invariance originating from the absence of a length scale. Recently, an emergent invariance even in the presence...
2.
Bhargavi K, Kubakaddi S, Ford C
J Phys Condens Matter
. 2017 Apr;
29(23):235303.
PMID: 28398212
The phonon-drag thermopower is studied in a monolayer graphene on a piezoelectric substrate. The phonon-drag contribution [Formula: see text] from the extrinsic potential of piezoelectric surface acoustic (PA) phonons of...
3.
Moreno M, Ford C, Jin Y, Griffiths J, Farrer I, Jones G, et al.
Nat Commun
. 2016 Sep;
7:12784.
PMID: 27627993
One-dimensional electronic fluids are peculiar conducting systems, where the fundamental role of interactions leads to exotic, emergent phenomena, such as spin-charge (spinon-holon) separation. The distinct low-energy properties of these 1D...
4.
Tsyplyatyev O, Schofield A, Jin Y, Moreno M, Tan W, Ford C, et al.
Phys Rev Lett
. 2015 May;
114(19):196401.
PMID: 26024184
Studying interacting fermions in one dimension at high energy, we find a hierarchy in the spectral weights of the excitations theoretically, and we observe evidence for second-level excitations experimentally. Diagonalizing...
5.
Garcia-Gancedo L, Pedros J, Zhao X, Ashley G, Flewitt A, Milne W, et al.
Biosens Bioelectron
. 2012 Jul;
38(1):369-74.
PMID: 22784500
Thin film bulk acoustic wave resonator (FBAR) devices supporting simultaneously multiple resonance modes have been designed for gravimetric sensing. The mechanism for dual-mode generation within a single device has been...
6.
McNeil R, Kataoka M, Ford C, Barnes C, Anderson D, Jones G, et al.
Nature
. 2011 Sep;
477(7365):439-42.
PMID: 21938065
Single-electron circuits of the future, consisting of a network of quantum dots, will require a mechanism to transport electrons from one functional part of the circuit to another. For example,...
7.
Jompol Y, Ford C, Griffiths J, Farrer I, Jones G, Anderson D, et al.
Science
. 2009 Aug;
325(5940):597-601.
PMID: 19644117
In a one-dimensional (1D) system of interacting electrons, excitations of spin and charge travel at different speeds, according to the theory of a Tomonaga-Luttinger liquid (TLL) at low energies. However,...
8.
Kataoka M, Astley M, Thorn A, Oi D, Barnes C, Ford C, et al.
Phys Rev Lett
. 2009 Jun;
102(15):156801.
PMID: 19518665
Observation of coherent single-electron dynamics is severely limited by experimental bandwidth. We present a method to overcome this using moving quantum dots defined by surface acoustic waves. Each dot holds...
9.
Sfigakis F, Ford C, Pepper M, Kataoka M, Ritchie D, Simmons M
Phys Rev Lett
. 2008 Feb;
100(2):026807.
PMID: 18232908
We investigate the conductance of quantum wires with a variable open quantum dot geometry, displaying an exceptionally strong Kondo effect and most of the 0.7 structure characteristics. Our results indicate...
10.
Astley M, Kataoka M, Ford C, Barnes C, Anderson D, Jones G, et al.
Phys Rev Lett
. 2007 Nov;
99(15):156802.
PMID: 17995201
We measure the electron escape rate from surface-acoustic-wave dynamic quantum dots (QDs) through a tunnel barrier. Rate equations are used to extract the tunneling rates, which change by an order...