Abstract: A spark plug for use with an engine block/cylinder head having a threaded bore and also for use with a spark plug wrench and an ignition wire. Also, an improved method for constructing a spark plug, the spark plug including a metal shell having a hex nut, a seat, a flange, a bore and threads. A ground electrode is associated with the shell and an insulator assembly occupies the bore and is gripped by the flange. The method includes the steps of forming the hex nut and the seat by carrying out operations on a blank, roiling the threads, fitting the insulator assembly into the bore, deforming the flange to capture the insulator, and forming the negative electrode by machining the blank.

Abstract: A spark plug for use with an engine block/cylinder head having a threaded bore and also for use with a spark plug wrench and an ignition wire. Also, an improved method for constructing a spark plug, the spark plug including a metal shell having a hex nut, a seat, a flange, a bore and threads. A ground electrode is associated with the shell and an insulator assembly occupies the bore and is gripped by the flange. The method includes the steps of forming the hex nut and the seat by carrying out operations on a blank, roiling the threads, fitting the insulator assembly into the bore, deforming the flange to capture the insulator, and forming the negative electrode by machining the blank.

Abstract: The embodiments of the present disclosure describe forming a semiconductor layer (e.g., III-V semiconductor material) on a silicon substrate using a template. In one embodiment, the template is patterned to form a plurality of cylindrical openings or pores that expose a portion of the underlying silicon substrate. The material of the semiconductor is disposed into the pores to form individual crystals or monocrystals. Because of the lattice mismatch between the crystalline silicon substrate and the material of the semiconductor layer, the monocrystals may include defects. However, the height of the pores is controlled such that these defects terminate at a sidewall of the template. Thus, the monocrystals can be used to form a single sheet (or single crystal) semiconductor layer above that template that is defect free.

Abstract: The embodiments of the present disclosure describe forming a semiconductor layer (e.g., III-V semiconductor material) on a silicon substrate using a template. In one embodiment, the template is patterned to form a plurality of cylindrical openings or pores that expose a portion of the underlying silicon substrate. The material of the semiconductor is disposed into the pores to form individual crystals or monocrystals. Because of the lattice mismatch between the crystalline silicon substrate and the material of the semiconductor layer, the monocrystals may include defects. However, the height of the pores is controlled such that these defects terminate at a sidewall of the template. Thus, the monocrystals can be used to form a single sheet (or single crystal) semiconductor layer above that template that is defect free.

Abstract: The embodiments of the present disclosure describe forming a semiconductor layer (e.g., III-V semiconductor material) on a silicon substrate using a template. In one embodiment, the template is patterned to form a plurality of cylindrical openings or pores that expose a portion of the underlying silicon substrate. The material of the semiconductor is disposed into the pores to form individual crystals or monocrystals. Because of the lattice mismatch between the crystalline silicon substrate and the material of the semiconductor layer, the monocrystals may include defects. However, the height of the pores is controlled such that these defects terminate at a sidewall of the template. Thus, the monocrystals can be used to form a single sheet (or single crystal) semiconductor layer above that template that is defect free.

Abstract: The embodiments of the present disclosure describe forming a semiconductor layer (e.g., III-V semiconductor material) on a silicon substrate using a template. In one embodiment, the template is patterned to form a plurality of cylindrical openings or pores that expose a portion of the underlying silicon substrate. The material of the semiconductor is disposed into the pores to form individual crystals or monocrystals. Because of the lattice mismatch between the crystalline silicon substrate and the material of the semiconductor layer, the monocrystals may include defects. However, the height of the pores is controlled such that these defects terminate at a sidewall of the template. Thus, the monocrystals can be used to form a single sheet (or single crystal) semiconductor layer above that template that is defect free.

Abstract: The plug comprises a nut, a coupling extending from the nut and adapted to receive an ignition wire and an insulator extending from the nut and away from the coupling. A positive electrode extends through the insulator. An externally-threaded tubular portion extends from the nut in surrounding relation to the insulator and terminating, short of the insulator end, in a cap that is disposed in spaced relation to the insulator. The cap defines a void having: a central portion into which the positive electrode extends; an annular channel surrounding the central portion; and a plurality of lobes, each positioned with respect to the central portion as the planet gears are positioned with respect to the sun gear in a planetary gear. The cap has a central surface that is axially spaced from the insulator and a convex surface that surrounds and extends to the central surface.

Abstract: The plug comprises a nut, a coupling extending from the nut and adapted to receive an ignition wire and an insulator extending from the nut and away from the coupling. A positive electrode extends through the insulator. An externally-threaded tubular portion extends from the nut in surrounding relation to the insulator and terminating, short of the insulator end, in a cap that is disposed in spaced relation to the insulator. The cap defines a void having: a central portion into which the positive electrode extends; an annular channel surrounding the central portion; and a plurality of lobes, each positioned with respect to the central portion as the planet gears are positioned with respect to the sun gear in a planetary gear. The cap has a central surface that is axially spaced from the insulator and a convex surface that surrounds and extends to the central surface.

Abstract: The plug comprises a nut, a coupling extending from the nut and adapted to receive an ignition wire and an insulator extending from the nut and away from the coupling. A positive electrode extends through the insulator. An externally-threaded tubular portion extends from the nut in surrounding relation to the insulator and terminating, short of the insulator end, in a cap that is disposed in spaced relation to the insulator. The cap defines a void having: a central portion into which the positive electrode extends; an annular channel surrounding the central portion; and a plurality of lobes, each positioned with respect to the central portion as the planet gears are positioned with respect to the sun gear in a planetary gear. The cap has a central surface that is axially spaced from the insulator and a convex surface that surrounds and extends to the central surface.

Abstract: A method of constructing a spark plug that has positive and ground electrodes configured such a spark plug defined between the positive and ground electrode extenders comprises an elongate channel which opens axially and away from the body and is substantially unobstructed in the axial direction to provide better ignition resulting in improved fuel economy. The method involves taking a body part of a conventional spark plug and welding an adapter part to the body part to produce a spark plug with the elongate channel.

Abstract: The plug comprises a nut, a coupling extending from the nut and adapted to receive an ignition wire and an insulator extending from the nut and away from the coupling. A positive electrode extends through the insulator. An externally-threaded tubular portion extends from the nut in surrounding relation to the insulator and terminating, short of the insulator end, in a cap that is disposed in spaced relation to the insulator. The cap defines a void having: a central portion into which the positive electrode extends; an annular channel surrounding the central portion; and a plurality of lobes, each positioned with respect to the central portion as the planet gears are positioned with respect to the sun gear in a planetary gear. The cap has a central surface that is axially spaced from the insulator and a convex surface that surrounds and extends to the central surface.

Abstract: A system and method for measuring air quality using a micro-optical mechanical gas sensor is disclosed. According to one embodiment of the present invention, the system includes an emission source that includes a conduit gap for receiving a gas; a plurality of electrodes for applying an electric field to at least a portion of the conduit gap, the application of the electric field creating a plasma in the conduit gap; and a detector that detects an emission from the plasma. The emission source and the detector may be micro-optical mechanical devices. A method for measuring air quality is discloses.

Abstract: An adapter, used with a spark plug body and an engine block, is disclosed. The body defines an axis and has adjacent one end, a coaxial metal ring. A coaxial metal tube extends from the ring towards the other body end and is threaded in said block in use. An insulator, having a portion inside the tube, extends axially, from inside the tube, beyond the ring, and has a void therethrough. A positive electrode occupies the void and extends axially beyond the insulator to a terminus. In use, the adapter is secured to said body and comprises: a positive electrode extender in electrically-conducting relation to the positive electrode and a ground electrode extender in electrically-conducting contacting relation to the ring. The adapter is configured such that a gap defined between the positive and ground extenders comprises a channel which opens axially away from said body and is substantially unobstructed axially.

Abstract: A system and method for measuring air quality using a micro-optical mechanical gas sensor is disclosed. According to one embodiment of the present invention, the system includes an emission source that includes a conduit gap for receiving a gas; a plurality of electrodes for applying an electric field to at least a portion of the conduit gap, the application of the electric field creating a plasma in the conduit gap; and a detector that detects an emission from the plasma. The emission source and the detector may be micro-optical mechanical devices. A method for measuring air quality is discloses.

Abstract: A photonic crystal, and a photonic device having such a photonic crystal, configured by changing its physical geometry in at least one region to alter light propagation and/or confinement. The configuring means may include electrostrictive, piezoelectric or magnetostrictive components of the photonic crystal, or an actuation device affixed to the photonic crystal.

Abstract: A photonic crystal, and a photonic device having such a photonic crystal, configured by changing its physical geometry in at feast one region to alter light propagation and/or confinement, The configuring means may include electrostrictive, piezoelectric or magnetostrictive components of the photonic crystal, or an actuation device affixed to the photonic crystal.

Abstract: A photonic crystal, and a photonic device having such a photonic crystal, configured by changing its physical geometry in at feast one region to alter light propagation and/or confinement, The configuring means may include electrostrictive, piezoelectric or magnetostrictive components of the photonic crystal, or an actuation device affixed to the photonic crystal.

Abstract: A radioisotope-powered semiconductor battery comprises a substrate of a crystalline semiconductor material, the material having at least one degree of confinement, and a radioactive power source comprising at least one radioactive element. The power source is positioned relative to the substrate to allow for impingement of emitted particles on the substrate. The semiconductor material may be electronically, structurally or chemically confined. The radioactive element is preferably impregnated within or immediately adjacent the semiconductor material.

Abstract: A radioluminescent light source comprising a crystalline III-V or II-VI semiconductor or a group IV quantum semiconductor and a radioactive element adapted to cause the semiconductor to produce light is disclosed. The radioactive element, such as tritium, is either incorporated within the semiconductor, preferably proximate to the p-n junction of the semiconductor, or placed adjacent the semiconductor.