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(Click for frequent words.) 72 microwatts 70 microvolts 69 μW 67 milliamp 67 nanowatts 66 milliamps 66 milliamperes 65 photocurrent 65 microwatt 65 milliwatts 64 millivolt 64 amperes 64 picoseconds 64 attoseconds 63 microampere 63 cm -2 62 milligauss 62 polariton 62 dipole moment 62 milliampere 62 electromotive force 62 milliwatt 62 pulse widths 62 2dB 61 μsec 61 microamps 61 μV 61 femtoseconds 61 microns millionths 61 resonance frequency 61 Vdd 61 X ray pulses 61 quadrillionths 61 GeV 61 W/cm2 61 1kHz 60 V ac 60 MeV 60 dc voltage 60 milliohm 60 √ Hz 60 mV 60 mOhm 60 Amperes 60 meV 60 photon energies 60 input impedance 60 nanoamps 60 keV 60 mA output 60 microvolt 60 volts 60 nanosecond pulses 60 ohm load 60 joules 60 leakage currents 60 m 60 quadrillionth 60 mG 60 thermal EMF 60 capacitive coupling 60 thermal gradients 59 electron volt 59 mW/cm2 59 rms jitter 59 nsec 59 impedance input 59 oscillator frequency 59 5μm 59 picometers 59 impedances 59 micron diameter 59 kVp 59 #Ω [002] 59 #.#Hz 59 linearly polarized 59 4mA 59 microamp 59 picosecond 59 UV wavelengths 59 #.#uF 59 surface plasmon 59 electron bunches 59 isotherms 59 antineutrinos 59 1kV 59 5kV 59 photoconductive 59 amplitudes 59 voltages 59 1mA 59 kilovolts kV 59 #V ac 59 infrared photons 59 nanometers billionths 59 μS 58 #mA [003] 58 gauss 58 external resistors 58 femtosecond pulses 58 kilovolts 58 #.#nm [002] 58 nanoliters 58 variable resistor 58 #μA [002] 58 #mV [002] 58 ampere 58 mK 58 resonant cavity 58 exciton 58 kΩ 58 5mW 58 6kW 58 angstroms 58 Wh kg 58 terawatts 58 megapascals 58 watts 58 0 dBm 58 silicon nanowire 58 capacitances 58 #mV V 58 μA 58 microliters 58 #.#mA [002] 58 output voltage 58 ± #.#dB 58 1mW 58 1μm 58 6nm 58 vibrational modes 57 terawatt 57 subpixel 57 cesium atom 57 -# dBm [001] 57 Fig. 2b 57 total harmonic distortion 57 cm ² 57 Shutter speeds 57 circularly polarized 57 W/m2 57 candelas 57 UV photons 57 micro Amps 57 kilobases 57 ppmv 57 Nm3 h 57 cm -3 57 μs 57 #/#Hz [001] 57 switched capacitor 57 #.#dB [003] 57 mm ² 57 FWHM 57 thermal equilibrium 57 μm thick 57 dipole magnets 57 kilo watts 57 X ray diffraction pattern 57 input capacitance 57 absorption coefficient 57 lowpass filter 57 fs pulses 57 triac 57 magnetically coupled 57 SQUIDs 57 Voltages 57 V dc 57 enthalpy 57 8nm 57 #ksps 57 1Hz 57 output voltages ranging 57 ° sec 57 arcsecond 57 mA 57 dI dV 57 1dB 57 xenon lamp 57 sq. mm 57 electron neutrinos 57 gravitational acceleration 57 ohm cm 57 linearly polarized light 57 mV V 57 corona discharge 57 quantum oscillations 57 nanomesh 57 Raman scattering 57 mΩ 57 breakdown voltages 57 neutron flux 57 5ppm 57 #nm laser [002] 56 microlitre 56 nanometers thick 56 micrometres 56 output capacitance 56 voltage outputs 56 +# dBm output 56 Fig. 2A 56 fA 56 mW 56 photon fluorescence 56 depolarization 56 phototransistor 56 microwave frequencies 56 vibrationally excited 56 ε 56 absorbance 56 piezoelectric crystal 56 dB insertion loss 56 GFlops 56 illuminance 56 linearized 56 infrared laser pulses 56 candelas per 56 inductive loads 56 μm diameter 56 MΩ 56 micromolar 56 #Kw [001] 56 μF 56 transimpedance amplifier 56 Mflops 56 cm -1 56 2kHz 56 2ppm 56 #.#μA 56 micro amps 56 #.#V [002] 56 micrometer scale 56 electron tunneling 56 5nm 56 Kelvins 56 Bose Einstein Condensate 56 nanosecond pulse 56 isotherm 56 λ 56 bilayer graphene 56 modulated signals 56 ratiometric 56 scfm 56 picogram 56 #W halogen 56 emits photons 56 sub picosecond 56 unpolarized 56 nanometers nm 56 rms noise 56 electronvolts 56 #uA [001] 56 excitons 56 #v #v 56 Vcore 56 Vpp 56 #μs [001] 56 mRNA molecules 56 arbitrary waveforms 56 microwave photon 56 decibel dB 56 optically pumped 56 supercurrent 56 ac mains 56 oscillation frequency 56 photolysis 56 photoelectrochemical 56 cm3 56 Kelvin -# 56 output voltages 56 electron positron pairs 55 transmissivity 55 5mA 55 nm excitation 55 DUTs 55 #us [001] 55 #ohm [002] 55 electron transistor 55 annealing temperature 55 kilowatt kW 55 #V dc [001] 55 #.#uA 55 volts AC 55 micron thick 55 uW 55 fluorescence intensity 55 dBFS 55 ± #ppm [001] 55 polaritons 55 4kV 55 #.#KW 55 psec 55 femtosecond pulse 55 Coulomb blockade 55 kilohertz kHz 55 sievert 55 #V AC input 55 linewidth 55 θ 55 +# Vdc 55 #mm ² [001] 55 Kbits 55 nanomotors 55 regulated output voltages 55 ultrasonic vibrations 55 impedance measurements 55 bistable 55 THD + N 55 mosfet 55 megajoules 55 mono crystalline PV 55 mJ 55 ps nm 55 #V dc [002] 55 femtosecond 55 single photon detectors 55 #μs [002] 55 voltage divider 55 prescaler 55 petawatt 55 compressive stress 55 quantum mechanically 55 quasiparticle 55 #.#VDC 55 -# mV [002] 55 #nA [001] 55 #.#mV 55 nm VCSEL 55 bandgaps 55 #μA [001] 55 photomultiplier tubes 55 1nm 55 #ns [002] 55 photon beams 55 #.#W [003] 55 excitations 55 kHz frequency 55 photon absorption 55 frequency harmonics 55 ohms 55 MBd 55 Quiescent current 55 delta sigma 55 ml min 55 picometer 55 PWM dimming 55 zinc oxide nanowires 55 Josephson junction 55 #.#V #.#V [001] 55 phototransistors 55 instrumentation amplifier 55 Angstroms 55 #.#mW 55 dBc 55 pulse durations 55 #nm #nm [001] 55 microlenses 55 droplet sizes 55 μS cm 55 #μm [001] 55 σ 55 superfluid helium 55 helium nuclei 55 diffusion coefficient 55 velocity dispersion 55 #.#Ah 55 kWe 55 bypass capacitor 55 dipolar 55 multicrystalline cells 55 helium atom 55 spectral density 55 piezoelectric crystals 55 superconducting qubit 55 m z 55 #pF [001] 55 metal halide lamps 55 kilo watt 55 electron spins 54 nanoliter 54 newtons 54 inductances 54 bistability 54 #.#μm [001] 54 watt lightbulb 54 pulse width modulation 54 photoemission 54 PWM signal 54 1ns 54 threshold voltages 54 Nernst 54 #.#mA [003] 54 converter topologies 54 #W bulb 54 shunt resistor 54 mW cm 2 54 dv dt 54 photon beam 54 piezoelectric transducer 54 sodium atoms 54 external resistor 54 #.#kW [002] 54 multi walled nanotubes 54 1ppm 54 +7 dBm 54 nT 54 passband 54 birefringence 54 kelvin 54 PWM frequency 54 3LCD projectors averaged 54 #.#x#.#mm 54 circular dichroism 54 inductive sensor 54 rubidium atoms 54 ppbv 54 terahertz frequencies 54 heterojunction 54 rubidium atom 54 5kHz 54 permittivity 54 transcranial 54 microlitres 54 electronic excitations 54 convection cooling 54 Mosfets 54 circularly polarized light 54 PWM output 54 dBm output 54 ultraviolet wavelength 54 bandgap 54 kcal mol 54 diatomic 54 kWH 54 thermopile 54 magnetic permeability 54 micrometre 54 vibrational frequency 54 fermion 54 #mΩ [001] 54 μm 54 parasitic capacitances 54 1kw 54 CMOS transistors 54 fluorescence quenching 54 -3 dB 54 nm wavelength 54 #mA output [002] 54 piconewtons 54 magnetic dipole 54 ohmic 54 Fig. 3b 54 6dB 54 kA 54 #us [002] 54 inertial confinement 54 trillionths 54 demultiplexer 54 SCFM 54 characteristic impedance 54 electroluminescence EL 54 buck converter 54 niobium titanium 54 capacitively coupled 54 muon neutrinos 54 magnetoresistance 54 dB SPL 54 photon flux 54 microliter 54 hertz Hz 54 laser pulse 54 Cherenkov radiation 54 volt AC 54 mm2 54 #Wh [001] 54 boron atoms 54 nanometers nanometer 54 frequency modulated 54 MIL HDBK #F 54 superconducting magnet 54 oscillatory 54 #mA [002] 54 entangled photons 54 mAh rechargeable 54 superconducting circuits 54 1μA 54 voltage spikes 54 femtosecond laser pulses 54 aqueous electrolyte 54 kPa 54 msec 54 mAh g 54 photon 54 #.#VI O 54 parasitic capacitance 54 #nm wavelength [001] 54 χ 54 Mosfet 54 photochemical reaction 54 laser excitation 54 interparticle 54 electromagnetic flux 54 6T SRAM 54 frequency electromagnetic waves 53 #A #V [002] 53 Fig. 4b 53 #Vac input 53 RDS ON 53 +5 VDC 53 oxide thickness 53 osmotic pressure 53 RGB LEDs 53 electrochemical reactions 53 #mm# [001] 53 pulsed lasers 53 nanolaser 53 #pF [002] 53 Kw 53 6V 53 millionths 53 hafnium oxide 53 output impedance 53 +#.# dBm [002] 53 ZXLD# 53 excitation 53 resonant frequency 53 #cd m 2 53 dc converter 53 electrochemical reaction 53 emit photon 53 antineutrino 53 #-# Vdc 53 energetic gamma rays 53 electrical conductance 53 Fluorescent lamps 53 lb hr 53 synchronous buck converter 53 resonance frequencies 53 helium ions 53 colliding protons 53 GPa 53 mmol 53 ultrashort pulses 53 #.#-# V 53 -# degrees Celsius [001] 53 -# ° C. [002] 53 degC 53 ppm ° C 53 harmonic distortion 53 TEGs 53 Input Voltage 53 nitride semiconductor 53 #.#nm [001] 53 #.#kWh 53 absorption spectra 53 Si substrate 53 cm2 53 arbitrary waveform generator 53 #VAC [002] 53 volt amps 53 emittance 53 Â ± 53 conductance 53 thermally induced 53 electron scattering 53 ± #.#mm [001] 53 photoionization 53 VCXO 53 Î ¼ 53 picoliter droplets 53 shunt resistors 53 dipole 53 piezo actuator 53 electric dipole 53 5dB 53 electrochemically 53 superlattice 53 PIN diodes 53 superior heat dissipation 53 3nm 53 axis trackers 53 ± #V [002] 53 logarithmic scale 53 GaN transistor 53 oC 53 kilohertz 53 toroid 53 nonlinear optical 53 pMOS 53 ammeter 53 microns 53 nucleotide substitutions 53 magnetization reversal 53 kT 53 microamperes 53 radians 53 femtosecond lasers 53 pn junction 53 inductively coupled 53 nanodot 53 phosphorus atom 53 backscattering 53 zener diode 53 -# ° C [001] 53 Fluorescent bulbs 53 #rpm [001] 53 photomultiplier tube 53 #μm [002] 53 spectral bands 53 teraelectronvolts TeV 53 kW 53 -# ° [002] 53 sieverts 53 micrometres thick 53 Halifax Weather Overcast 53 #V AC [002] 53 cd m 53 stoichiometry 53 superpositions 53 fig. S2 53 ferromagnet 53 Unit Telescopes 53 ionise 53 adsorbate 53 #Wh [002] 53 carbon nanotube electrodes 53 Superconducting materials 53 supercontinuum generation 53 capacitive loading 53 Fig. 1c 53 electrical resistivity 53 ammonia NH3 53 nMOS 53 superconducting quantum interference 53 farads 53 WLEDs 53 dBi antenna 53 1kW 53 luminous flux 53 VSWR 53 cd m² 53 submicrometer 53 Gaussian beam 53 kilowatts kw 53 excitonic 53 #Wp 53 emission wavelength 53 magnetic flux 53 watt 53 #mV [001] 53 sine waves 53 collimated 53 modulated laser 53 trans impedance 53 galvanic isolation 53 micro sieverts 53 nanomolar 53 backlight LEDs 53 sub Angstrom 53 #.#dB [002] 53 porous membranes 53 8W 53 frequency comb 53 lasing wavelength 53 nitrogen monoxide 53 fluid viscosity 53 dielectric strength 53 cantilever deflection 53 plasmon 53 SNR signal 53 nucleon 53 fig. S6 53 Btuh 53 wavefront distortion 53 3dB 53 6GHz 53 7V 53 dephasing 53 battery recharges 53 #Vdc [003] 53 ATP hydrolysis 53 collimators 53 qubit 53 polystyrene spheres 53 gravitationally lensed 53 voltmeter 53 suprachiasmatic nucleus 53 hyperfine 53 input voltages 53 1uA 53 W mK 52 bosonic 52 surface plasmons 52 kilopascals 52 mT 52 micrometers 52 parsec 52 proton proton collisions 52 local oscillator LO 52 asynchronous motors 52 micrometre sized 52 C0G 52 kilowatt KW 52 uV 52 JFET 52 dye sensitized cells 52 Fig. 1A 52 emit photons 52 cesium atoms 52 5V input 52 #degC [002] 52 relativistic protons 52 paramagnetic 52 orbital angular momentum 52 #.#mA [001] 52 nanometer wavelength 52 electron volts 52 magnesium ion 52 Vrms 52 #mW [001] 52 dielectric permittivity 52 magnetization 52 #oC [001] 52 millimeter wavelength 52 kW h 52 magnetisation 52 X rays gamma rays 52 Nd YAG lasers 52 polyphase 52 photons 52 irradiance 52 milliamps mA 52 ft. lbs 52 #.#um [001] 52 ms -1 52 4kW 52 z axis 52 frequency doubler 52 degreesC 52 Ozone O3 52 terahertz waves 52 2MHz 52 Vdc input 52 optical resonator 52 microcavity 52 0V 52 QRS width 52 picoliter 52 temperature coefficient 52 inhomogeneity 52 LVCMOS 52 piezoelectric actuators 52 κ 52 cosmic ray flux 52 infrared laser beams 52 helium atoms 52 megohms 52 sinewave 52 kg hr 52 antibody antigen 52 #.#Ω 52 #Ah 52 nanodevice 52 oxide thickness EOT 52 electro optic modulator 52 decoherence 52 gigapascals 52 kilowatts KW 52 x 7mm 52 laser pulses 52 Mott insulator 52 highly collimated 52 antiprotons 52 rotor diameter 52 qubit quantum 52 #KHz [001] 52 cosmic ray collisions 52 ohm resistor 52 ion thrusters 52 ° C ambient temperature 52 rubidium vapor 52 photoelectron spectroscopy 52 synchronous motor 52 revs min 52 #μF [002] 52 absorbs photon 52 milliwatts mW 52 micromoles 52 ± #V [001] 52 μH 52 resistive loads 52 #dBm output 52 pulse width 52 #.#kW [004] 52 Mbps throughput 52 Dirac fermions 52 photodetector 52 nm wavelengths 52 Supplementary Fig 52 photosystem 52 +4 dBm 52 #nA [002] 52 newton meters 52 Hertz Hz 52 Eq. 52 optical modulator 52 RC oscillator 52 Terawatt hours 52 mu m 52 lm W. 52 titania nanotubes 52 +5 dBm 52 ultrasonic frequencies 52 FETs 52 ultracold 52 tesla 52 #mW [002] 52 CCD detector 52 lowest levelized 52 mGy 52 Fig. 1B 52 sigma delta 52 UCC# 52 transmembrane 52 flyback converter 52 electron accelerator 52 resonant frequencies 52 TRIAC 52 2μm 52 chemiluminescence 52 dV dt 52 capacitance values 52 cubic millimeters 52 triode 52 interferometers 52 airflows 52 resonant tunneling 52 nanogenerator 52 #V #Hz 52 qubits 52 donor acceptor 52 stimulated emission 52 nanopositioning stages 52 processive 52 photons emitted 52 QDs 52 MOS transistor 52 photon counting 52 photoelectric conversion 52 2mA 52 attosecond pulses 52 #.#v [001] 52 5VDC 52 endothermic 52 photomultiplier 52 2kW 52 pulsewidth 52 ZnSe 52 THz radiation 52 conductivities 52 nanometer spatial 52 fig. S1 52 Point Tracking MPPT 52 LVDS outputs 52 8kV 52 electrically conducting 52 -# º C [002] 52 nanosize 52 η 52 anthracene 52 2nm 52 kGy 52 Fig. 4c 52 TLP# 52 kbits 52 germanium silicon 52 electron doped 52 sinusoidal 52 van der Waals interactions 52 terawatt hour 52 metallic nanostructures 52 C 52 nonlinearities 52 #lm W [001] 52 photon detector 52 epitaxial layer 52 fluorescence emission 52 0dB 52 LiNbO3 52 emission spectra 52 #uA [002] 52 Vcc 52 optical modulators 52 ions electrically charged 52 arcsec 52 IR LEDs 52 shorter wavelengths 52 MTCMOS 52 degree Centigrade 52 Xenon lamp 52 voltage MOSFET 52 5V supply 52 inductance values 52 electron pairing 52 τ 52 g cm 52 #.#pF 52 #.#MHz [007] 52 weakly interacting 52 microbatteries 52 photosystem II 52 gluon 52 mL kg 52 mrem 52 electron density 52 HV# [001] 52 micrometer 52 byte FIFO 52 quantum superposition 52 synchronous motors 52 nanometric 52 #.#-#.# [011] 51 dc ac 51 yr -1 51 amperage 51 TDFN packages 51 resonators 51 rotational torque 51 7kW 51 Global Warming Potential GWP 51 nanometers 51 Sitrans LR# 51 #.#V DDR3 [002] 51 interstitial fluid 51 kW hr 51 Input voltage 51 billionths 51 Force Microscopy 51 bit sigma delta 51 electrons tunneling 51 zener diodes 51 metallic carbon nanotubes 51 tokamaks 51 SiO 2 51 volt lithium ion battery 51 ohm speakers 51 P1dB 51 3kW 51 ac voltage 51 DFT calculations 51 #VDC [002] 51 reverse polarity 51 #W RMS [002] 51 voltage 51 li ion battery 51 rotor diameters 51 #mA [001] 51 inhomogeneities 51 rotary encoders 51 0dBm 51 voltage transformer 51 cosmic ray particles 51 RMS jitter 51 typ 51 intracellular pH 51 isotropic 51 electrons positrons 51 diffract 51 electrical impedance 51 optically coupled 51 colocalization 51 millimeter wavelengths 51 fluorophores 51 transconductance 51 zener 51 luminous efficacy 51 γ 51 ion traps 51 horizontally polarized 51 sine wave output 51 lithium niobate 51 #V #A 51 consumes #W [001] 51 electron volts eV 51 galactic disk 51 ferromagnetic 51 wavelength tunability 51 5v 51 photosynthetic apparatus 51 temperature gradient 51 toroidal 51 chipscale 51 femtogram 51 antiparticle 51 bipolar transistor 51 VO# [001] 51 intermodulation distortion 51 submillimeter 51 tungsten halogen