The 34 references in paper A. Bogorosh, N. Višniakov, J. Novickij, A. Bubulis, А. Богорош , Н. Вишняков , Ю. Новицкий , А. Бубулис (2015) “ЛАВИНЫ ДИСЛОКАЦИЙ И ВЫБРОСЫ НАПРЯЖЕНИЯ В ПЛАТАХ РАДИОИНЖЕНЕРНОГО ОБОРУДОВАНИЯ // DISLOCATION AVALANCHES AND STRAIN BURSTS IN THE BOARDS OF RADIO-ENGINEERING EQUIPMENT” / spz:neicon:pimi:y:2013:i:1:p:79-85

1
Uchic, M.D. Sample Dimensions Influence Strength and Crystal Plasticity / M.D. Uchic [et. al] // Science. – Vol. 305. – Nr. 5686, 2004. – P. 986–989.
(check this in PDF content)
2
Csikor F.F. Dislocation avalanches, Strain Bursts and the Problem of Plastic Forming at the Micrometer Scale / F.F. Csikor [et. al] // Science. – Vol. 318. – Nr. 5848, 2007. – P. 251–254.
(check this in PDF content)
3
Bogorosh, A. The Mechanism of Defects Formation in Silicon Substrates / A. Bogorosh [et. al] // Solid State Phenomena. – Vol. 165. – 2010. – P. 7–12.
(check this in PDF content)
4
Dimiduk, D.M. Direct Measurements of Scalefree Intermittent Flow in Crystal Plasticity / D.M. Dimiduk // Science, Vol. 312. – Nr. 5777. – 2006. – P. 1188–1190.
(check this in PDF content)
5
Miguel, M.C. Interrmitted Dislocation Flow in Viscoplastic Deformation / M.C. Miguel // Nature. – Vol. 410. – 2001. – P. 667–671.
(check this in PDF content)
6
Muravjev, Т.V. Peculiarities of acoustic emission during evolution of Chernov-Luders lines in the samples / Т.V. Muravjev, L.B. Zuev // Journal of technical physics. – Vol. 78. – Nr. 8. – 2008. – P. 135–139. (in Russian)
(check this in PDF content)
7
Serjeznov, A.N. Acoustic emission diagnostic of constructions / A.N. Serjeznov, L.N. Stepanova, V.V. Muravjev // Radio and communication. – Moscow, 2000. – 280 p. (in Russian)
(check this in PDF content)
8
Voronov, S. Piezo- and Pyroelectric GaAs Sensors Integrated in One Crystal with GaAs FET / S. Voronov [et. al] // Vibromechanika. Journal of Vibroenergineering. – Vol. 12. – Issue 1. – 2010. – P. 119–123.
(check this in PDF content)
9
Schwerdtfeger, J. Scale-free Statistics of Plasticity-induced Surface Steps on KCl Single Crystals / J. Schwerdtfeger // Journal of Statistical Mechanics: Theory and experiment. – Issue 04, L04001. – April 2007. – P. 1–8.
(check this in PDF content)
10
Kubin, L.P. Collective Behaviour of Dislocations in Plasticity / L.P. Kubin, C. Fressengeas, G. Ananthakrishna // Dislocations in Solids. – Vol. 11. – 2002. – P. 101–192.
(check this in PDF content)
11
Sethna, J.P. Crackling Noise / J.P. Sethna, K.A. Dahmen, C.R. Myers // Nature. – Vol. 410. – 2001. – P. 242–250.
(check this in PDF content)
12
Durin, G. The Barkhausen Effect / G. Durin, S. Zapperi // The Science of Hysteresis. – Vol. II. – 2006. – P. 181–267.
(check this in PDF content)
13
Rankis, G. Investigation of Individual Barkhausen Jumps as a Method for Study of Magnetic Noise / G. Rankis [et. al] // Elektronika ir elektrotechnika. – Nr. 3 (38), Kaunas: Technologija, 2002. – P. 41–45.
(check this in PDF content)
14
Colla, E.V. The Barkhausen Noise in the Relaxor Ferroelectric / E.V. Colla, L.K. Chao, M.B. Weissman // Physical Review Letters. – Vol. 88. – Nr. 1, 017601. – 2002. – P. 1–4.
(check this in PDF content)
15
Salminen, L.I. Acoustic Emission from Paper Fracture / L.I. Salminen, A.I. Tolvanen, M.J. Alava // Physical Review Letters. – Vol. 89. – Nr. 19, 185503. – 2002. – P. 1–4.
(check this in PDF content)
16
Tinder, R.F. Millimicroplastic burst henomena in zinc monocrystals / R.F. Tinder, J.P. Trzil // Acta Metallurgica. – Vol. 21. – Issue 7. – 1973. – P. 975–989.
(check this in PDF content)
17
Potthoff, H. H. Velocities of Dislocation Groups in Very Thin Neutron-Irradiated Copper Single Crystals Measured by Slip Line Cinematography // Physica Status Solidi (a) . – Vol. 77. – Issue 1. – 1983. – P. 215–224.
(check this in PDF content)
1

(check this in PDF content)
2

(check this in PDF content)
3

(check this in PDF content)
4

(check this in PDF content)
5

(check this in PDF content)
6

(check this in PDF content)
7

(check this in PDF content)
8

(check this in PDF content)
9

(check this in PDF content)
10

(check this in PDF content)
11

(check this in PDF content)
12

(check this in PDF content)
13

(check this in PDF content)
14

(check this in PDF content)
15

(check this in PDF content)
16

(check this in PDF content)
17

(check this in PDF content)