Abstract: An acoustic power transformer includes: an input port adapted to receive an input signal; a transmitting acoustic transducer coupled to the input port and adapted to transmit an acoustic wave in response to the input signal received at the input port; a receiving acoustic transducer adapted to receive the acoustic wave and in response thereto to produce an output signal; an output port adapted to output the output signal; and an acoustic medium disposed in an acoustic wave propagation path between the transmitting acoustic transducer and the receiving acoustic transducer. In one case, at least one of the transmitting acoustic transducer and receiving acoustic transducer includes a Fresnel lens. In another case, the transformer includes an acoustic lens disposed in the acoustic wave propagation path between the transmitting acoustic transducer and the receiving acoustic transducer.

Abstract: In one aspect, a data communication system includes a modulator, an integrated acoustic data coupler, and a demodulator. The modulator modulates a carrier signal having a frequency in an operating frequency range in response to an input data signal and provides the modulated carrier signal at a modulator output. The integrated acoustic data coupler includes an acoustically resonant structure that has one or more acoustic resonant frequencies in the operating frequency range. The acoustically resonant structure includes a first thin film electro-acoustic transducer electrically coupled to the modulator output, a second thin film electro-acoustic transducer, and a substrate. The substrate supports, acoustically couples, and provides an electrical isolation barrier between the first and second thin film electro-acoustic transducers.

Abstract: An acoustic power transformer includes: an input port adapted to receive an input signal; a transmitting acoustic transducer coupled to the input port and adapted to transmit an acoustic wave in response to the input signal received at the input port; a receiving acoustic transducer adapted to receive the acoustic wave and in response thereto to produce an output signal; an output port adapted to output the output signal; and an acoustic medium disposed in an acoustic wave propagation path between the transmitting acoustic transducer and the receiving acoustic transducer. In one case, at least one of the transmitting acoustic transducer and receiving acoustic transducer includes a Fresnel lens. In another case, the transformer includes an acoustic lens disposed in the acoustic wave propagation path between the transmitting acoustic transducer and the receiving acoustic transducer.

Abstract: A via etch to contact a capacitor with ferroelectric between electrodes together with dielectric on an insulating diffusion barrier includes two-step etch with F-based dielectric etch and Cl- and F-based barrier etch.

Abstract: A via etch to contact a capacitor with ferroelectric between electrodes together with dielectric on an insulating diffusion barrier includes two-step etch with F-based dielectric etch and Cl- and F-based barrier etch.

Abstract: Plasma charging devices and methods are disclosed for detecting plasma charging during semiconductor wafer processing. Charging monitors are disclosed having ferroelectric capacitance elements which can be preprogrammed prior to processing steps of interest, and then subsequently measured afterwards, in order to determine whether plasma related charging is a problem in the intervening processing steps.

Abstract: Improved methods of forming PZT thin films that are compatible with industry-standard chemical vapor deposition production techniques are described. These methods enable PZT thin films having thicknesses of 70 nm or less to be fabricated with high within-wafer uniformity, high throughput and at a relatively low deposition temperature. In one aspect, a source reagent solution comprising a mixture of a lead precursor, a titanium precursor and a zirconium precursor in a solvent medium is provided. The source reagent solution is vaporized to form a precursor vapor. The precursor vapor is introduced into a chemical vapor deposition chamber containing the substrate. In another aspect, before deposition, the substrate is preheated during a preheating period. After the preheating period, the substrate is disposed on a heated susceptor during a heating period, after which a PZT film is formed on the heated substrate.

Abstract: A ferroelectric device fabrication process is described in which ferroelectric device contaminant substances (e.g., Pb, Zr, Ti, and Ir) that are incompatible with standard CMOS fabrication processes are tightly controlled. In particular, specific etch chemistries have been developed to remove incompatible substances from the backside and edge surfaces of the substrate after a ferroelectric device has been formed. In addition, a sacrificial layer may be disposed over the bottom and edge surfaces (and, in some embodiments, the frontside edge exclusion zone surface) of the substrate to assist in the removal of difficult-to-etch contaminants (e.g., Ir). In this way, the ferroelectric device fabrication process may be integrated with a standard semiconductor fabrication process, whereby ferroelectric devices may be formed together with semiconductor integrated circuits without substantial risk of cross-contamination through shared equipment (e.g., steppers, metrology tools, and the like).

Abstract: The present disclosure relates to a post-etch cleaning treatment for a semiconductor device such as a FeRAM. The treatment comprises providing an etchant comprising both a fluorine compound and a chlorine compound, and applying the etchant to the semiconductor device in a wet cleaning process.

Abstract: A method is provided for forming a paraelectric semiconductor device by depositing a seed layer on an oxide electrode using a paraelectric material precursor and depositing a paraelectric layer on the seed layer using the paraelectric material precursor.

Abstract: A method of fabricating a ferroelectric capacitor is disclosed. The method comprises the decreases a reduction in a bottom electrode material during formation of the ferroelectric dielectric portion of the capacitor. In the above manner, a fatigue resistance of the ferroelectric capacitor is increased substantially.

Abstract: A method for controlling the crystallographic texture of thin films with anisotropic ferroelectric polarization or permittivity by means of ion bombardment resulting in a texture with higher ferroelectric polarization or permittivity which is normally energetically disfavored.

Abstract: Plasma charging devices and methods are disclosed for detecting plasma charging during semiconductor wafer processing. Charging monitors are disclosed having ferroelectric capacitance elements which can be preprogrammed prior to processing steps of interest, and then subsequently measured afterwards, in order to determine whether plasma related charging is a problem in the intervening processing steps.

Abstract: A method of fabricating a ferroelectric capacitor is disclosed. The method comprises the decreases a reduction in a bottom electrode material during formation of the ferroelectric dielectric portion of the capacitor. In the above manner, a fatigue resistance of the ferroelectric capacitor is increased substantially.

Abstract: An embodiment of the instant invention is a method of fabricating a planar conductive via in an opening through a dielectric layer having a top surface, a bottom surface and the opening having sides, the method comprising the steps of: depositing a first conductive material (114 of FIG. 7d) on the top surface of the dielectric layer and in the opening in the dielectric layer to substantially fill the opening with the conductive material; removing the portion of the first conductive material located on the dielectric layer and removing a portion of the first conductive material located in the opening in the dielectric layer to recess (406 of FIG. 7d) the first conductive material below the top surface of the dielectric layer; depositing a second conductive material (704 of FIG. 7d) in the recess to form a substantially planar top surface substantially coplanar with the top surface of the dielectric layer; and forming a third conductive material (302 of FIG.

Abstract: A method of fabricating a ferroelectric capacitor is disclosed. The method comprises decreasing a reduction in a bottom electrode material during formation of the ferroelectric dielectric portion of the capacitor. The method comprises forming an oxygen doped iridium layer and forming a ferroelectric dielectric layer thereover. During the formation of the ferroelectric, the oxygen doped iridium layer converts to an iridium oxide layer.

Abstract: A method of fabricating a ferroelectric capacitor is disclosed. The method comprises the decreases a reduction in a bottom electrode material during formation of the ferroelectric dielectric portion of the capacitor. In the above manner, a fatigue resistance of the ferroelectric capacitor is increased substantially.

Abstract: Plasma charging devices and methods are disclosed for detecting plasma charging during semiconductor wafer processing. Charging monitors are disclosed having ferroelectric capacitance elements which can be preprogrammed prior to processing steps of interest, and then subsequently measured afterwards, in order to determine whether plasma related charging is a problem in the intervening processing steps.

Abstract: A method of fabricating a ferroelectric capacitor is disclosed. The method comprises the decreases a reduction in a bottom electrode material during formation of the ferroelectric dielectric portion of the capacitor. In the above manner, a fatigue resistance of the ferroelectric capacitor is increased substantially.

Abstract: A method of fabricating a ferroelectric capacitor is disclosed. The method comprises the decreases a reduction in a bottom electrode material during formation of the ferroelectric dielectric portion of the capacitor. In the above manner, a fatigue resistance of the ferroelectric capacitor is increased substantially.