-# ° C [001]

Related by string. -# ° C [002] * # [012] . # [007] . # [016] . #s [002] . # [014] . #s [004] . # [004] . # [022] : #.# ov #-# . #-#:# pm [001] . ID # # . i Newswire #-#-# . Call #-#-# [002] . #-#-# ATS [003] . #-#-# ATS [002] / : ° F . ¡ ° . ° C . ° C. . ° F. . ¡ ± ¡ ° . ¡ ° ¡ ± / cd . CD . CS . CER . Cs . c . C. : c o . C hris . b c . c Copyright Thomson Reuters . #-#-# #ET Copyright c . C ounty . disc CD changer * *

Related by context. All words. (Click for frequent words.) 78 -# degrees Celsius [001] 75 -# degrees Fahrenheit [002] 75 -# º C [002] 75 -# ° F [001] 72 -# Celsius [001] 71 -# ° C. [002] 69 cryogenic temperatures 67 -# ° Celsius [001] 67 mK 65 -# º F [002] 64 #oC [001] 64 #F #C [001] 64 -# ° Fahrenheit 63 degF 63 -# ° [002] 63 Kelvin -# 63 #deg C 63 #degC [002] 63 #oF [001] 63 degC 63 +# º C [002] 63 annealing temperature 63 degreesC 62 Â ° C. 62 +# ° F 62 +# degC [002] 62 kelvins 62 kelvin 62 -# deg C 61 -# Fahrenheit [002] 61 Halifax Weather Overcast 61 -# ° C. [001] 61 -4 ° 61 +# º C [001] 60 degreesF 60 cryostat 60 -# degreesC 60 cryogenic cooling 60 -# deg [002] 60 ˚ C. 60 ° Fahrenheit 60 Liquid helium 60 oC 60 Reheat leftovers 60 #.#nm [002] 59 +# deg C [002] 59 GPa 59 -# ˚ C 59 ° C 59 -# º C [001] 59 isotherm 59 #C #F [003] 59 ° -# ° [001] 59 +# oC 59 ° C ambient temperature 59 thermoelectric cooling 58 Meanwhile preheat oven 58 superfluid helium 58 58 photolysis 58 supercooled liquid 58 deg F 58 IR wavelengths 58 ˚ F. 58 +# degreesC 58 Min Temp #.# 58 +# ° F. 58 silicon monoxide 58 cm -3 58 ultracold temperatures 58 polariton 58 -# deg [001] 58 -# º [001] 58 liquid helium 58 -# degrees Centigrade 58 magnetic dipole 58 ° F 58 ultracold 58 ° F -# ° 58 hafnium oxide 58 gigapascals 58 Mostly Cloudy Currently 58 thermally stable 57 Liquid nitrogen 57 superheat 57 ° C. 57 Min temp 57 kelvin -# 57 dewpoint temperature 57 W/cm2 57 -# degrees Fahrenheit [001] 57 polaritons 57 ionise 57 thermodynamically 57 freezeproof 57 ambient temperatures 57 #.degree [001] 57 +# degC [001] 57 quantum oscillations 57 W mK 57 +# deg C [001] 57 frictional heating 57 microwatt 57 º Celsius 57 ° Celsius 57 electrically insulating 57 μm diameter 57 rubidium atoms 57  C 56 -# ° F [002] 56 SQUIDs 56 +# degrees Celsius [001] 56 +# degrees Celsius [002] 56 superconduct 56 #Â ° F [002] 56 +# deg [001] 56 meV 56 +# degrees Centigrade 56 photosphere 56 GeV 56 paramagnetic 56 picosecond 56 θ 56 isotherms 56 linearly polarized 56 metastable 56 #.degree [002] 56 Kelvins 56 +# deg [002] 56 temperature gradient 56 4mA 56 radiative cooling 56 supercooled 56 megapascals 56 silicate rocks 56 relativistic particles 56 X ray pulses 56 ˚ F 56 º Fahrenheit 56 #Â ° C 56 thermal equilibrium 56 thermal EMF 56 solder reflow 56 photon energies 56 sodium atoms 56 5μm 55 cryogenically cooled 55 laser excitation 55 degrees farenheit 55 -# ˚ 55 quantum mechanically 55 #bar [001] 55 emittance 55 ° C/# ° F [001] 55 Mott insulator 55 #degreesC 55 molten salts 55 convection cooling 55 enthalpy 55 photomultiplier tubes 55 Bose Einstein condensate BEC 55 º C. 55 -# degrees centigrade [001] 55 ion traps 55 QCLs 55 Deg C 55 thermal conductivities 55 subsurface ocean 55 microvolts 55 Mg Fe 55 thermal gradients 55 ¢ ª 55 copper oxide superconductors 55 ultrahigh vacuum 55 -# degrees Celcius 55 ohm cm 55 Method Preheat oven 55 º C 55 Bose Einstein condensates 55 dielectric constant 55 ° C ambient 55 GJ #b [002] 55 phonon 55 1nm 55 UV VIS 55 #GHz [001] 55 keV 55 thermodynamic equilibrium 55 endothermic 55 ° C ± 55 torr 55 dipole moment 54 ˚ C 54 μW 54 UV photons 54 microwave photon 54 cementite 54 -# º F [001] 54 liquid coolant 54 Celsius #.#F 54 conventional superconductors 54 quantum coherence 54 degrees fahrenheit 54 centrifuged 54 toroid 54 electron pairs 54 -4 ° F 54 #lm [001] 54 recrystallization 54 GaN wafers 54 magnetisation 54 Reduce oven 54 Bose Einstein Condensate 54 1μm 54 PREHEAT oven 54 MeV 54 54 supercooling 54 ° С 54 visible wavelengths 54 helicity 54 photon flux 54 #Â ° [002] 54 hyperfine 54 collimated 54 absorption coefficient 54 QDs 54 submillimetre wavelengths 54 melt viscosity 54 femtogram 54 #lm [002] 54 ° -# ° [002] 54 -# º [002] 54 exothermic reaction 54 ultraviolet photons 54 cuprate 54 superconductive 54 +# ° C [002] 54 dielectric strength 54 mbar 54 interfacial tension 54 TappingMode 54 photocurrent 54 colloidal crystals 54 2nm 54 ZnS 54 thermal conductance 54 antineutrinos 54 crystal lattices 54 #Â º C 54 kT 54 ionized gases 54 potassium atoms 54 kcal mol 54 isotope fractionation 53 electrical resistivity 53 thermally activated 53 reduced graphene oxide 53 lithium atoms 53 resonant frequencies 53 thermodynamic properties 53 UV wavelengths 53 tempera tures 53 monochromators 53 airglow 53 cm -2 53 W/m2 53 microwatts 53 thermal conductivity 53 elastic modulus 53 thermoelectric cooler 53 absorption spectra 53 GFlops 53 bandgaps 53 #μA [002] 53 mT 53 Venusian atmosphere 53 -# ° C [002] 53 adiabatic 53 #um [002] 53 optically pumped 53 thermoelectric coolers 53 gauss 53 silicate dust 53 martensite 53 degrees Fahrenheit 53 +# deg C. 53 magnon 53 degrees Farenheit 53 eutectic 53 wafer uniformity 53 quantum cascade 53 degrees celcius 53 chemically reactive 53 magnetron 53 microamp 53 rugged conduction cooled 53 Sparklers burn 53 millivolts 53 +# º 53 ultracold atoms 53 magma ocean 53 τ 53 cm ² 53 +# ° C. [001] 53 boron nitride 53 Nova NanoSEM 53 post perovskite 53 microampere 53 metallic nanostructures 53 absorption spectroscopy 53 MPa 53 exothermic 53 crystallinity 53 denaturation 53 relativistic protons 53 psig 53 GaN layer 53 #Â º [001] 53 water vapor condenses 53 temperature gradients 53 ± #ppm [002] 53 CMOS transistors 53 ohmic 53 submillimeter 53 compressive stress 53 oscillation amplitude 53 photoconductive 53 thermodynamically stable 53 austenite 53 conductivities 53 thermocouples 53 InAs 53 Aerogels 53 dimensional electron 53 emission wavelength 53 atomic lattice 53 SiO 53 vibrational modes 53 #nm #nm [001] 53 formamide 53 tokamaks 52 C/# [003] 52 anneal 52 magnetic excitations 52 SiON 52 +# ° C [001] 52 -5 ° C 52 degrees Centigrade 52 dielectric permittivity 52 1kV 52 nanomesh 52 ammonia NH3 52 -8 ° C 52 microcavity 52 reaction kinetics 52 orbital resonance 52 microcavities 52 superheated steam 52 resistive element 52 particle acceleration 52 shear modulus 52 -5 ° 52 mechanical resonator 52 germanium silicon 52 NMR spectra 52 osmotic pressure 52 thermal annealing 52 antineutrino 52 Max Temp 52 clathrates 52 emits photons 52 thermal gradient 52 solvation 52 electromotive force 52 chlorine monoxide 52 ε 52 controlled crystal oscillator 52 ionize 52 magnetostrictive 52 adsorption isotherms 52 spintronic device 52 Alfvén waves 52 5nm 52 ferrite core 52 #degrees [002] 52 #oC [002] 52 YBCO 52 X ray binaries 52 cantilever deflection 52 rubidium vapor 52 helium atom 52 degree Centigrade 52 cosmic ray particles 52 equilibration 52 toroidal 52 ± #ppm [001] 52 Gamma rays 52 argon fluoride 52 electron neutrinos 52 electronic excitations 52 antiferromagnets 52 cosmic ray flux 52 nonequilibrium 52 2 MeV electron 52 fermionic atoms 52 bosonic 52 Ytterbium 52 solar corona 52 rubidium 52 ferroelectricity 52 illuminance 52 Einstein cosmological constant 52 GaN transistor 52 mount inductors 52 fluid viscosity 52 Ionic liquids 52 qubit quantum 52 nanosecond pulses 52 thermal diffusivity 52 submillimeter wavelengths 52 ms -1 52 resonance frequency 52 magnetization 52 solar nebula 52 quasiparticles 52 5kV 52 3He 52 52 erbium 52 ultrashort pulses 52 emits X rays 52 gravitational acceleration 52 TECs 52 fermion 52 thermal conduction 52 ferromagnetism 52 femtosecond pulses 52 gaseous methane 52 threshold voltages 52 photochemical reactions 52 fission reactor 52 silicon dioxide SiO2 52 absorb photons 52 degree celcius 52 #μm [002] 52 planet Gliese #c 52 Mercury exosphere 52 uniaxial 52 fluorescence emission 52 ° C/# 52 radiative 52 ⁰ C 52 ultraviolet wavelengths 52 Nd YAG 52 shorter wavelengths 51 thermally induced 51 gamma rays emitted 51 nanolaser 51 chromatographic separations 51 APTIV film 51 inertial confinement 51 nm wavelengths 51 compressibility 51 uncooled 51 breakdown voltages 51 electron ion 51 deuterium tritium 51 superfluid 51 #.#nm [001] 51 tensile stresses 51 femtoseconds 51 resonant cavity 51 stratospheric clouds 51 electrically conducting 51 Bose Einstein condensation 51 #nm wavelengths 51 º F 51 luminosities 51 MWCNTs 51 beryllium ions 51 sorption 51 vaporisation 51 Inconel 51 emit photon 51 SiO 2 51 liquid electrolytes 51 helium nuclei 51 electrochemically 51 DFB lasers 51 Antarctic stratosphere 51 Greenhouse gases trap 51 dipolar 51 cesium atoms 51 NWs 51 nanowatts 51 Josephson junctions 51 photometer 51 micrometre sized 51 membrane electrode assemblies MEAs 51 cuprates 51 cuprate superconductors 51 fig. S2 51 hexamers 51 Fig. 4A 51 picoseconds 51 magnetic stirrer 51 multiphoton 51 helium cooled 51 alkali atoms 51 cadmium sulfide 51 ytterbium 51 cesium atom 51 wavelength tunability 51 emits photon 51 #nm #nm [002] 51 Nd YAG lasers 51 spontaneous fission 51 OCXOs 51 micrometer scale 51 gate electrode 51 Bose Einstein condensate 51 exosphere 51 -# ° Celsius [002] 51 microamperes 51 antiprotons 51 #C #C [001] 51 AFM cantilever 51 colliding protons 51 silica spheres 51 strontium titanate 51 axial tilt 51 downwelling 51 X ray wavelengths 51  m 51 supersolid 51 photoemission 51 mu m 51 photomultiplier tube 51 velocity dispersion 51 vanadate 51 isotropic 51 #oF [002] 51 differential scanning calorimetry 51 ionized gas 51 nm wavelength 51 ppmv 51 turbine inlet 51 peltier 51 thermowells 51 μm thick 51 geosynchronous orbit reached 51 mW/cm2 51 energetic electrons 51 solvent evaporation 51 photon beam 51 diatomic 51 micron thick 51 photon absorption 51 bipolar transistors 51 adsorbate 51 single photon detectors 51 Å -1 51 aqueous solution 51 temperature coefficients 51 Degrees Fahrenheit 51 thermometer hovered 51 electron accelerators 51 photonic crystal 51 leakage currents 51 bottomhole pressure 51 tensile stress 51 ZnSe 51 irradiance 51 lasing wavelength 51 σ 51 #nm wavelength [001] 51 ferromagnetic materials 51 absorbs ultraviolet 51 coronal holes 51 chondrites 51 derate 51 argon gas 51 Ultracold 51 dewpoint 51 magnesium ion 51 strontium atoms 51 quantum superposition 51 Silicon Nitride 51 AlGaAs 51 microbolometers 51 Fabry Perot 51 outer corona 51 electron bunches 51 VY Canis Majoris 51 -# ° [001] 51 electron optics 51 hydrides 51 linearly polarized light 51 absorbs sunlight 51 galactic disk 51 spectra 50 pulse widths 50 superfluids 50 ion flux 50 #V dc [001] 50 hyperspectral imager 50 unpolarized 50 chemical reactants 50 helium atoms 50 silicon Si 50 martian atmosphere 50 Rydberg atom 50 GOA WEATHER Temp 50 Nanofiltration 50 ° F/# ° C [001] 50 desorption 50 -# degrees centigrade [002] 50 ionizes 50 asthenosphere 50 MWIR 50 weakly interacting 50 prograde 50 input impedance 50 #pF [001] 50 #deg [002] 50 ° C/# ° F [002] 50 optical wavelengths 50 meteoritic material 50 nanoglue 50 Mössbauer 50 carbonate globules 50 VLTI 50 Michelson interferometer 50 pyrolytic 50 pulse durations 50 Si substrate 50 #.#uF 50 input capacitance 50 hydrolytic stability 50 Heatpipe 50 electrochemical sensor 50 emission spectroscopy 50 metallic ions 50 electrolytic capacitor 50 emissivity 50 highly collimated 50 electrospray ionization 50 galactic cosmic rays 50 oscillator frequency 50 orbital inclination 50 ° F. 50 CIS CIGS 50 #nA [002] 50 nanodroplets 50 microlens 50 fluorescence intensity 50 offgas 50 circumstellar disk 50 #.#Hz 50 Pt# 50 elastic moduli 50 titanium aluminide 50 lithium niobate 50 polarimetry 50 convection cooled 50 AlN 50 J# +# [002] 50 polysulfone 50 Gaussian beam 50 ultraviolet wavelength 50 bilayer 50 millimeter wavelengths 50 excitonic 50 convective heat 50 bismuth telluride 50 mV g 50 -1 ° C 50 optically transparent 50 photon detection 50 #ksps 50 #m# h 50 quadrillionths 50 Memristors 50 exciton 50 milliamperes 50 millimeter wavelength 50 voltage divider 50 optical lattices 50 supercritical fluid 50 cathodic 50 electron doped 50 piezoresistive 50 InSb 50 blackbody 50 beryllium ion 50 GOA WEATHER Max 50 graphene membrane 50 chondrules 50 VCXO 50 kGy 50 thermal foldback 50 subwavelength 50 emit X rays 50 #.#um [001] 50 electric dipole 50 +# º C. 50 celcius 50 drilled northwards 50 m/s2 50 2oC 50 thermal decomposition 50 FWHM 50 mosfet 50 AlN layer 50 silicon modulators 50 terahertz quantum cascade 50 resonant frequency 50 SWCNT 50 ° C -# ° 50 Josephson junction 50 #μA [001] 50 spicules 50 photoionization 50 radiometric measurements 50 ammonia borane 50 orbital velocity 50 Er YAG 50 isomeric 50 lm W 50 shadowed craters 50 gelation 50 holmium 50 #ppm ° C 50 submicrometer 50 temperature 50 topological defects 50 cryogen 50 ionised 50 #Â ° F [001] 50 inelastic scattering 50 nanometric 50 #nm laser [002] 50 ultraviolet lasers 50 magnetospheric 50 stoichiometry 50 ° sec 50 ultrasonic vibrations 50 lowermost mantle 50 heatsink fins 50 baryonic 50 spatially resolved 50 mesosphere 50 silicone encapsulation 50 º -# º 50 VDDQ 50 ratiometric 50 Crystal Oscillator 50 diamond anvil 50 deg C. 50 diffraction grating 50 sun corona 50 crystallites 50 mineralize 50 GZK cutoff 50 hydride 50 freezer compartment 50 bandgap 50 carbides 50 picoliter 50 yr -1 50 carbonate minerals 50 1mA 50 Voltages 50 microdroplets 50 thermometer registers 50 5V supply 50 absorbance 49 entrapped doxorubicin 49 photonic bandgap 49 CMB photons 49 photocatalysts 49 coercivity 49 photosynthetic apparatus 49 supercontinuum generation 49 absorb neutrons 49 cryocooler 49 #.#F [001] 49 circularly polarized light 49 Rydberg atoms 49 ultracold molecules 49 ± #.#dB 49 aragonite 49 fluxing 49 dopant 49 Dirac fermions 49 nonpolar 49 49 photon beams 49 ionized particles 49 magnetic flux 49 Directions Preheat oven 49 excitation 49 orbitals 49 η 49 C0G 49 Quiescent current 49 2ppm 49 electrons protons 49 infrared wavelengths 49 #nm laser [001] 49 ppm ° C 49 6GHz 49 output voltage 49 SAW oscillators 49 photon counting 49 isothermal 49 solar insolation 49 nitriding 49 #uA [001] 49 preheats 49 Interferometric 49 F/#.# 49 femtosecond 49 CAIs 49 Ozone O3 49 muon neutrinos 49 Bake uncovered 49 heavy fermion 49 yttrium barium copper 49 kPa 49 nonpolar GaN 49 aspheres 49 Rubidium 49 Thermocouples 49 CdSe 49 specular reflection 49 flowrate 49 deg 49 μ 49 synchrotron emission 49 phototransistor 49 MAX#E 49 psia 49 2dB 49 #.#W [003] 49 magnetron sputtering 49 superlattice 49 #bar [002] 49 kinematic viscosity 49 ps nm 49 AIX #G# 49 nm excitation 49 PWM frequency 49 Fig. 2A 49 YAG lasers 49 solvent evaporates 49 scfm 49 Mercury magnetosphere 49 photoelectron spectroscopy 49 homopolymer 49 radioactive decay 49 neutron radiation 49 bistable 49 5ppm 49 pyroelectric 49 Texoma Elevation 49 luminous flux 49 supercritical fluids 49 dielectrics 49 electron beams 49 Serve chilled 49 degas 49 microamps 49 #.#mA [002] 49 cryoprobe 49 Great Conveyor Belt 49 NEMA 4X enclosure 49 Perkinamine 49 ionic conductivity 49 #.#V [002] 49 deg C 49 electrothermal 49 superlattices 49 ultrapure water 49 milliampere 49 longwave radiation 49 cometary material 49 neutrons 49 ARPES 49 poly L lysine 49 crystallite 49 Schottky Diodes 49 MAX#/MAX# [002] 49 solar minima 49 diffraction pattern 49 calcium fluoride 49 TDFN packages 49 RovA 49 MEMS resonators 49 vapor condenses 49 boron trifluoride 49 solubilize 49 Pressure Transducer 49 titanium nitride 49 electron pairing 49 nitride semiconductor 49 tholins 49 LTR# 49 thermal dissipation 49 ρ 49 gaseous helium 49 athermal 49 graphene membranes 49 superconducting magnet 49 DPSS laser 49 proton conductivity 49 4H SiC 49 timebase 49 polar craters 49 tin Sn 49 Saturn magnetosphere 49 1ns 49 autosampler 49 Vdd 49 asparagine containing food 49 martensitic 49 diffusion coefficient 49 upflow 49 5V CMOS 49 nebular 49 hyperpolarization 49 RTAX DSP 49 hydrogen isotopes 49 excitations 49 linewidth 49 hydroxyl molecules 49 #W ACP 49 liquefies 49 precessing 49 optical sectioning 49 Higgs bosons 49 1ppm 49 NMR spectrometer 49 2kV 49 #.#uA 49 nanometer wavelength 49 chromosphere 49 electron tunneling 49 ferromagnetic 49 kbit 49 broadly tunable 49 nanoliter 49 porous membranes 49 hydroxide ions 49 voltage #.#V 49 mono crystalline silicon 49 #Vdc [003] 49 van der Waals interactions 49 mA output 49 Earth radii 49 soliton 49 superpositions 49 CMOS oscillators 49 LN2 49 viscosities 49 superconducting qubit 49 thermostatic 49 graphene layers 49 polymerizes 49 transmittance 49 magnetic permeability 49 micro Amps 49 nanomagnets 49 nm spectral 49 intermetallic 49 oxide thickness EOT 49 terahertz frequencies 49 multiband imaging photometer 49 GaP 49 voltage coefficient 49 antiferromagnetic 49 -# º C. 49 ± #V [002] 49 Input Voltage 49 output capacitance 49 oven preheated 49 electrons positrons 49 antimonide 49 topological insulators 49 antiquarks 49 nanomotors 49 bake preheat oven 49 #nm [003] 49 microwave frequencies 49 dimensional nanostructures 49 micrometre scale 49 circumstellar 49 LPCVD

Back to home page