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Time dependence of particle creation from accelerating mirrorsDry EEG electrodesFluctuation Dissipation TheoremMarkovian modeling of classical thermal noise in two inductively coupled wire loopsMaser Noise ConsiderationsNonequilibrium fluctuations in a resistorUltrafast radiative heat transfer.Experimental system design for the integration of trapped-ion and superconducting qubit systems.Limits of Spatial Resolution for Thermography and Other Non-destructive Imaging Methods Based on Diffusion WavesADAPTIVE DATA ANALYSIS OF COMPLEX FLUCTUATIONS IN PHYSIOLOGIC TIME SERIESA versatile high resolution scanning tunneling potentiometry implementation.111 years of Brownian motionStructure of stochastic dynamics near fixed points.Dependence of NMR noise line shapes on tuning, matching, and transmission line properties.Image reconstruction: an overview for clinicians.A gain and bandwidth enhanced transimpedance preamplifier for Fourier-transform ion cyclotron resonance mass spectrometry.Fundamental aspects of quantum Brownian motion.Performance characteristics of Brownian motors.Thickness effect of ultra-thin Ta2O5 resistance switching layer in 28 nm-diameter memory cellTheoretical limitations of quantification for noncompetitive sandwich immunoassays.Spin Noise Detection of Nuclear Hyperpolarization at 1.2 KCharge of a quasiparticle in a superconductorLeaky Integrate-and-Fire Neuron Circuit Based on Floating-Gate Integrator.Integration of GMR Sensors with Different Technologies.Path integrals for electronic densities, reactivity indices, and localization functions in quantum systems.Magnetic sensing platform technologies for biomedical applications.Traditional Chinese medicine: potential approaches from modern dynamical complexity theories.A SQUID-based primary noise thermometer for low-temperature metrology.MRI surface-coil pair with strong inductive coupling.Low Stress Ion Conductance Microscopy of Sub-Cellular Stiffness.Communication: Temperature derivative of the dielectric constant gives access to multipoint correlations in polar liquids.Thermoelectricity in polymer composites due to fluctuation-induced tunneling.Channel noise in nerve membranes and lipid bilayers.Overview: Unsolved problems of noise and fluctuations.Electrochemical noise and impedance of Au electrode/electrolyte interfaces enabling extracellular detection of glioma cell populations.High Sensitivity MEMS Strain Sensor: Design and Simulation.Monitoring local heating around an interventional MRI antenna with RF radiometry.Negative membrane capacitance of outer hair cells: electromechanical coupling near resonance.Enhanced noise at high bias in atomic-scale Au break junctions.Transition in the equilibrium distribution function of relativistic particles
P2860
Q21651210-1FC32DA3-354C-4540-ABA6-BBD2C299D993Q26865655-8601E3C9-8040-4A05-958B-8569CFCE218DQ27336317-1921A17F-6690-49A9-BCD5-B6655A11640AQ27341906-1E2210DF-68BE-4409-9E94-7765BF86B9C8Q27342106-F4A0F49A-198E-4925-ADA3-C3DCB60A730FQ27349264-EA504527-81CB-4B62-9BFA-CF6B0CFEB93BQ30356072-0644D601-DF20-41BB-9AF5-F8F63F2BEC38Q30358940-8FFA20E8-FA11-4469-BD57-939E19A6973FQ30445955-63B41E0C-56B1-4AFF-BC18-B73890F07996Q33521190-D26147E4-9BBB-4378-8F08-0ACDB5FEC0BDQ33683808-3FFC1DD0-4F4A-40F3-B545-131CCE831DBBQ33811692-3D589751-B753-40C1-A05C-E08339CB9708Q33948076-A2535593-4D45-471E-8776-17C5A2B89490Q34559378-2863FFA8-3979-43C2-925A-A45FDDA2ACE7Q34774065-BFC246C7-E991-4AD6-BA8A-007633199959Q35660754-7B990E02-74BF-410F-AEB4-3E14FAD88BE1Q36202915-E99D928D-1DB2-42F3-8DC6-E797EAB6469DQ36202930-D7173FC7-25D3-4023-92F1-55BB214ABF03Q36241984-6D7DF582-32AF-41B2-94D8-D8AAFA05B96EQ36259471-03D6C256-3E95-40FB-A300-EA4BC2C3AF07Q36404746-C4E8B0DB-B7CD-4FE6-A261-24D7BF7D2AC9Q36607579-B535D609-17A9-4B33-B9DC-0681E47162A1Q36924987-D4C45434-DF09-407E-A6CB-5E470F4BBA7EQ37068864-6994F0D8-E273-4FE7-AA84-12B71D4056A6Q37678215-DCC11E54-8BE5-414B-93EA-A9E1C6E96312Q38686122-51DF952E-02F2-4E98-8BD1-3BC297E32970Q38711270-A0C14B9E-2153-48AF-B6D4-83793D1CB5EBQ38904805-4054964D-2544-4E8B-95A4-D39404FF9D84Q39045287-C82C5324-C0BC-4E3F-BF70-D7A9B4219891Q39314817-F224BC2A-8C00-41E6-8DC1-ECD47767F5C1Q40040368-6E4BD188-E515-47CA-8386-6766DD6460DAQ40465947-8E13BC4D-8A24-4BFD-BB65-69D92114EE2BQ40489891-DA7ADBD6-15B0-47A7-8F06-9BF8902032E5Q40584656-60FEAF5B-1CFB-493F-9054-CAF66BD8DE8EQ41343908-7E857118-7343-4136-AE90-CCA4BAE74A28Q41572075-70646049-F60E-4F48-BEF8-BC228193DBFBQ41859350-87EFE900-6BA6-4896-9CF7-E75F1636BA11Q41956203-D0436A07-FBEC-48B3-BE9D-30ECF2B1A52CQ41981272-FC8EB576-E64C-4381-85F6-DE42DCF28443Q42321895-8C2FAB63-BBF8-4B28-B41D-81A4C3506244
P2860
description
1928 nî lūn-bûn
@nan
1928 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
1928 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
1928年の論文
@ja
1928年論文
@yue
1928年論文
@zh-hant
1928年論文
@zh-hk
1928年論文
@zh-mo
1928年論文
@zh-tw
1928年论文
@wuu
name
Thermal Agitation of Electric Charge in Conductors
@ast
Thermal Agitation of Electric Charge in Conductors
@en
Thermal Agitation of Electric Charge in Conductors
@en-gb
type
label
Thermal Agitation of Electric Charge in Conductors
@ast
Thermal Agitation of Electric Charge in Conductors
@en
Thermal Agitation of Electric Charge in Conductors
@en-gb
prefLabel
Thermal Agitation of Electric Charge in Conductors
@ast
Thermal Agitation of Electric Charge in Conductors
@en
Thermal Agitation of Electric Charge in Conductors
@en-gb
P3181
P356
P1433
P1476
Thermal Agitation of Electric Charge in Conductors
@en
P2093
H. Nyquist
P304
P3181
P356
10.1103/PHYSREV.32.110
P407
P577
1928-07-01T00:00:00Z