Accuracy
How close the result
of an analytical measurement comes to the true value. To determine
accuracy the method of analysis usually needs to be calibrated
with a known standard. |
Adhesion
The joining of two
different materials. |
Angstrom
Unit
Length unit equal to
1 x 10-10 meter or 1 x 10-8 centimeter used
for atomic measurements and radiation wavelengths. |
Astronomical
Unit (AU
A measurement unit
used in astronomy equal to the mean distance between the earth
and the sun (149.6 x 109 m). |
| AstronomyThe
science of studying the nature, magnitude, motions, distances,
periods of revolution, etc. of celestial bodies (e.g., planets,
stars, meteors, etc.). |
Atomic
Force Microscope (AFM)
One of several scanning
probe microscopes used to determine the length scale and size
of very small structures. |
Atomic
packing factor (APF)
The volume of atoms
in a unit cell divided by the volume of the unit cell. |
Base
SI Units
See SI Units. |
Blackbody
Description of a perfect
radiator that only emits its own light and does not reflect outside
light. |
Body
Centered Cubic (BCC)
Atomic packing structure
in which one atom is in the center of the unit cell, the simple
cubic. The center atom is in contact with eight identical corner
atoms. |
Brittle
fracture
Failure of a material
due to an applied stress in which there is no indication of material
elongation prior to breaking. |
Celsius
A scale used to measure
temperature. The size of the degree increments is the same for
both Celsius and Kelvin. Zero degrees Celsius corresponds to 273.15
K and/or the freezing temperature of water at 1 atmosphere. |
Centimeter
1 x 10-2
meter. |
Close-Packed
Direction
Crystallographic direction
in a unit cell in which atoms are co-linear. |
Close-Packed
Planes
Crystallographic planes
that have the highest atomic packing factor. |
Convective
heat loss
Heat transfer that
occurs when a fluid, such as air or water, is contacted with an
object whose temperature is higher than that of the surroundings.
The temperature of the fluid touching the object increases as
thermal energy is removed from the object's surface. |
Cross-sectional
area/s
The cross-sectional
area of the filament region locally (cm2). |
Crystal
structure
An atomic arrangement
that has a repeated pattern over distance. |
Crystallographic
Equivalent Planes
Planes of atoms that
have the same atomic packing number. |
Crystalline
Atoms arranged in a
periodic array over atomic distances. |
Crystallinity
of the filament
The amount of the filament's
structure that has returned to crystal (repeated patterns) due
to increased temperature. |
Current
flow
The measure of positive
(hole) and negative (electron) charge movement. By convention,
current flow is indicated with an arrow in the direction of positive
charge flow. |
Decimal
Scale
A scale pertaining
to multiples of tens. |
Derived
SI Units
See SI Units. |
Drawn
tungsten filaments
Tungsten ingot are
pulled/stretched through a series of diamond dies until a desired
cross sectional area is attained. |
Ductile
tungsten
Tungsten characterized
by its ability to yield (stretch) at normal temperatures when
a load is applied. |
Electric
current (i)
The measure of charge
movement (i.e. dq=i dt), where i denotes current in units of amperes
( 1 ampere = 1 A = 1 coulomb/sec = 1 C/s). |
Electric
power (P)
Rate of conversion
of electrical energy to another form, such as heat. For a resistor,
such as a tungsten lightbulb filament, the power may be expressed
as: P = i2R = V2/R. |
Electrical
resistance (R)
A measure of how easily
charge flows through a material (i.e. we determine the resistance
of a conductor between any two points by applying a potential
difference volts, V, between those points and measuring the current,
i, that results). 1 ohm = 1W = 1 volt/ampere = 1 V/A |
Electromagnetic
spectrum
A scale of various
forms of radiation (e.g., visible light, microwaves, radio waves,
x-rays, etc.) described in terms of the propagating energy's frequency
and wavelength. |
Electron
An elementary subatomic,
negatively charged particle that orbits the nucleus of an atom
and has a mass of 9.1096 x 10-28 grams. |
Electron
Microscope (EM)
A type of microscope
that uses electromagnetic lenses to focus electrons on a material
surface to make enlarged or magnified images of minute objects
residing at relatively close distances from the imaging source
of the microscope. |
Energy
state
The magnitude of energy
of an electron. |
Engineering
applications
The use to which engineering
concepts are applied. |
Etch
A chemical process
that removes surface atoms, usually by a strong acid. |
Evacuated
chamber
An enclosure pumped
below atmospheric pressure. Molecules such as Nitrogen, Oxygen,
and other gases have been removed via a purging mechanism. |
Evaporation
point
The point at which
a material changes form from a liquid to a gas, usually denoted
in units of temperature. |
Face
Centered Cubic (FCC)
An atomic packing structure
in which an atom is present at the center of each face of the
cubic cell and in contact with four identical corner atoms. The
layered stacking sequences are ABCABC…. Each atom is surrounded
by 12 neighboring atoms. |
Fahrenheit
The English unit temperature
scale used in the US and England. A scale smaller than the Celsius
scale is used and zero is set to a different temperature. |
Fluorescent
light
Lighting produced by
exciting gas atoms into higher energy states and then allowing
them to release the gained energy as photons to create light.
The gas is contained inside a glass tube with two metal caps/ends. |
Grain
boundaries
The interface between
two similar crystals with different orientations. Atoms at grain
boundaries have weaker bonds than atoms inside the matrix. |
Ground
energy
The lowest energy stationary
state. |
High
impedance
A material's high electrical
resistance makes the flow of current difficult. This results in
giving off energy at the surface as heat. |
Hybridization
A combination of two
different entities to render the resulting hybrid material. |
Instrument
A device used to measure
or characterize one or more properties of an object. |
Incandescence
The process by which
a hot body emits visible light. |
Inert
chamber
An enclosure that has
been filled with inert gases. |
Inert
gases
Gases that do not chemically
react with other chemicals. Inert gases are typically used to
flush/blanket materials in order to prevent oxygen or any other
reactive gas from interacting with the material in a controlled
environment. Column 8A of the periodic table includes the inert
gases. Examples: Helium (He), Neon (Ne), Argon (Ar), Krypton (Kr),
Xenon (Xe), and Radon (Rd). |
Interstellar
Situated among the
stars. |
Isometrically
1) Characterized by
equality of measure. 2) Crystallization system with three axes
of equal length at right angles (90 degrees). There are nine planes
of symmetry that are singly refracting. |
Kelvin
(K)
An absolute SI temperature
scale used by physicists in which the degree scale increments
are the same as Celsius. Zero K is known as absolute zero and
290 K is considered typical room temperature. |
Lattice
A three-dimensional
arrangement of atoms. |
Lattice
Coordinates
Numerical coordinates
that describe a position of a point on or within a unit cell.
They are usually fractions of the unit length of the axes a, b
and c having the origin at a cell corner. For example, the center
atom of a BCC structure has x, y and z coordinates all equal to
½. (½,½, ½) |
Lattice
parameter (a)
The edge length of
a unit cell. |
Lens
A transparent substance
to some propagating medium (e.g., light rays, electrons, etc.)
which has one or both surfaces curved to redirect or focus the
propagating medium onto a surface. |
Light
Year
The distance light
(electromagnetic radiation) can travel in one year. For light
traveling in a vacuum, a light year is 9.4605 x 1015
meters or 0.33 parsecs. |
Light
Year Scale
An astronomical length
scale based on the light year. |
Local
reactivity
The concentrated/focused
reaction at a fixed point. Local reactivity usually occurs at
grain boundaries because activation energies are lower there than
in the bulk crystal. |
London
Dispersion Forces
A form of weak, secondary
chemical bond (dipole-dipole) energy. |
Materials
The matter or substances
of which something is composed. |
Mega-Parsec
1 x 106
Parsec. |
Melting
point
The point at which
a material changes forms from a solid to a liquid, usually denoted
in units of temperature. |
Mesoscale
A nano-length scale
ranging from 2 to 50 nm. |
Meter
(m)
1 x 102
of a centimeter; also defined as a multiple of the wavelength
of light. |
Micrometer
(µm)
1 x 10-6
meter (see micron). |
Micron
(µm)
1 x 10-6
meter or 0.000001 meter. |
Microstructure
The structure of a
material having a length scale ranging between 1 µm - 1
mm. |
Microscope
An instrument consisting
of a lens or combination of lenses and used to make enlarged or
magnified images of minute objects residing at close distance
away from the microscope. |
Millimeter
(mm)
1 x 103
meter. |
Morphology
The science of form
and arrangement of material structures. |
Nanometer
(nm)
1 x 10-9
meter or 0.000000001 meter. |
Nanoscale
A length scale that
covers the nanometer size of objects. |
Ohm's
Law
A derived model that
outlines the relationship of voltage to current and resistance
(V = iR). |
Optical
Microsope
A type of microscope
that uses light and glass lenses to enlarge or magnify images
of minute objects or features of an object. |
Oxidation
The loss of an electron
by an atom, ion or molecule, which leads to an increase in the
oxidation number. |
Oxidation
number
A number assigned to
each element in a compound in order to keep track of the electrons
during a reaction. This is defined as the apparent electrical
charge of an atom according to a set of rules. |
Parsec
(pc)
A unit for stellar
distance equal to 3.26 light years or 206,265 astronomical units
(AU). |
Planck's
Law
In 1900 Max Planck
proposed a formula for the spectral radiancy that fit his experimental
data perfectly for all wavelengths and temperatures. |
Polycrystalline
A material that does
not have any long-range repeated crystalline patterns. |
Powers
of Ten Scale
A succession of ascending
and descending steps in multiples of ten. |
Precision
The reproducibility
of multiple measurements, regardless of accuracy. Precision is
usually described by standard deviation, standard error or confidence
interval. |
Pressure
The force exerted on
an object divided by the area over which the force is exerted.
Common units are: 1 atmosphere (atm) = 6.805 x10-2
pounds per square inch = 1.316 x 10-2centimeters of
mercury (cmHg) at 0°C, 1 torr = 1 millimeter of mercury (mmHg). |
Properties
The physical and chemical
characteristics of a material. |
Refractive
Index (RI)
The ratio of the speed
of light in a vacuum and by the speed of light in the medium or
material of interest. RI is determined by Snell's Law. |
Residual
air
Air remaining after
a system/bulb has been pumped down via vacuum pump. Residual air
inside a bulb usually shortens a bulb's lifetime. |
Resolution
The smallest distance
two points can be separated and yet be observed as two distinct
entities. For example, the length scale limit in determining two
distinct features of an object using the optical microscope is
0.2 micron, also known as the resolving power. |
Resolving
power
The ability of an optical
device to produce separate images of two close objects. |
Scale
A succession of ascending
and descending steps (e.g., relative dimensions) used to assess
the absolute or relative size of some property (e.g., length,
surface area, volume) of an object. |
Scanning
Electron Microscope (SEM)
An analytical tool
(microscope) that uses electrons for resolving media. The SEM
is capable of greatly extending the limited magnification range
of the optical microscope, which is only about 1500X to over 50,000X.
The SEM makes it possible to obtain useful images of specimens
that have a great deal of surface characteristics, such as those
found on deeply etched specimens or fractured surfaces. The depth
of field of the SEM can be as great as 300 times grated than the
optical microscope. |
Scanning
Probe Microscope (SPM)
A scanning probe instrument
used to make enlarged or magnified two and three-dimensional images
of very minute objects residing at extremely close distances to
the microscope probe. It allows one to determine the scale and
size of various two and three-dimensional features on a material
surface over the length scale ranging from microns to angstroms,
and thus is able to provide information on the surface morphology. |
Scanning
Tunneling Microscope (STM)
A type of scanning
probe instrument that uses electron current between probe and
sample to make enlarged or magnified two and three-dimensional
images of very minute objects residing at extremely close distances
to the microscope probe. |
Scientific
notation
The representation
of a number in the form A X 10n. The coefficient, A, is a number
with a single nonzero digit to the left of the decimal point and
n is an integer, or whole number. |
SI
Units
Standard international
(SI) units of measurement (centimeter, gram, second or 'cgs' units). |
Simple
Cubic
The unit cell with
one atom at each of the four corners. Each atom is in contact
with six identical neighboring atoms. |
Sinter
The process of heating
a powdered material into a solid ingot, reducing the voids and/or
porosity. |
Size
Extent of length, surface,
or volume of a material system. |
Snell's
Law
Relates the RI to the
sine of the angle of incidence to the angle of refraction. |
Speed
of Light
2.9979 x 108
meters/second. |
Sublimation
A process by which
a solid changes state to a gas. The most common example of this
is dry ice. |
Surface
The extent of an outermost
face or exterior boundary of an object. |
Surface
Area
The area of a material
that represents its surface, usually measured in squared length
units. For example, mm2 or ft2. |
Telescope
An optical instrument
consisting of a lens or combination of lenses used for making
enlarged or magnified images of very large objects that reside
at astronomical distances away from the telescope. |
Tensile
strength
A material property
that measures a material's ability to resist breaking under applied
strain. |
Torr
SI unit for pressure
(1 torr = 1 millimeter of mercury, mmHg). |
Transmission
Electron Microscope (TEM)
A type of electron
microscope used to createenlarged or magnified images of the interior
ultrastructure of very thin samples of material objects. |
Tungsten
crystal structure
The defining arrangement
of tungsten atoms in a periodic array over atomic distances. Tungsten
has a BCC structure. |
Ultraviolet
(UV) Light
Light outside the visible
light spectrum of humans. |
Unit
cell
The fundamental structural
unit of a crystal lattice which defines the crystal structure
in terms of geometry and atom position. |
Vacuum
systems
Systems designed to
generate pressures less then 1 atmosphere. |
Volume
1) The amount of space
occupied by an object or substance, usually measured in cubic
length units. For example, cm3. The derived SI unit
is liter (L), which is the capacity equal to the volume of 1 kg
of water at 4 degrees Celsius. 2) The three-dimensional size or
quantity of an object at a given length scale. |
Wavelength
(l)
The length or distance
between the crest of one wave and the crest of the next or adjacent
wave. |
Wien's
Law
Derived from Planck's
Law, Wien's Law correlates temperature and wavelength. |
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