Medical School Albert Einstein College of Medicine at Yeshiva University Graduated: 1983
Languages:
English
Description:
Dr. Lam graduated from the Albert Einstein College of Medicine at Yeshiva University in 1983. He works in Sainte Genevieve, MO and specializes in Obstetrics & Gynecology. Dr. Lam is affiliated with Sainte Genevieve County Memorial Hospital.
Tony Lam - Artesia CA, US ChenChun Wu - Salt Lake City UT, US
International Classification:
G01J 3/44 G01N 21/65
US Classification:
356301, 359634
Abstract:
There is provided a Raman signal detection including a laser emitter and an optical element. The optical element includes an optical element body, an emitter face with a short pass optical coating, a Raman signal face with a long pass optical coating and a sample face. The optical element is positioned with a laser emitter output beam incident upon the emitter face. The emitter face receives the laser emitter output beam and transmits an emitter face output beam through the optical element body and the sample face to emit a sample face output beam. The sample face receives and transmits a sample reflection beam generated from the sample face output beam to the emitter face. The emitter face reflects and transmits the sample reflection beam the sample reflection beam through the Raman signal face to emit a Raman signal output beam to a Raman signal detector.
System And Method For Wide Area Network And Telco Infrastructure Integration
Louis Crain - Culver City CA, US Steven Hamilton - Culver City CA, US Tony Lam - Culver City CA, US
International Classification:
H04L012/66
US Classification:
370/352000, 370/465000
Abstract:
Apparatus and methods for integrating multi-mode communication modalities are implemented in a communication platform nexus which is coupled to the public switch telephone network, a wide area data network and a wireless communication network. The communication platform receives communication attempts directed at a subscriber, from communication devices without regard to their underlying network transport medium. The platform receives and processes communication attempts and forwards attempted communications to the subscriber over all of the communication media available to the platform, simultaneously. Caller-id information is directed to a subscriber along with an interactivity option selection list, over a wide area data network link. A subscriber enters interaction options selections as call control signals and forwards the signals to the platform over the wide area data network link. The communication platform manages incoming communications, in accordance with the call control signals, so as to notify the subscriber of a communication attempt regardless of the subscriber's location and the form of communication device with which they are presently equipped.
Laser Apparatus With Feedback For Dispersive Output To A Pin-Hole Element
Tony Lam - Artesia CA, US ChenChun Wu - Salt Lake City UT, US
International Classification:
H01S 3/30 H01S 3/13
US Classification:
372 5, 372 29011
Abstract:
There is provided a laser apparatus that includes a laser emitter configured to emit a laser emitter output beam. The apparatus includes a transmissive grating positioned with the laser emitter output beam incident upon the grating. The grating transmits a first order output beam. The apparatus includes a feedback element positioned with the first order emitted beam incident upon the feedback element. The feedback element returns a feedback element return beam incident upon the grating. The feedback element transmits a feedback element output beam at a feedback element output beam width. The laser apparatus includes a pin-hole element with a pin-hole positioned with the feedback element output beam incident upon the pin-hole. The feedback element output beam width is not greater than the pin-hole width. The pin-hole element transmits a pin-hole output beam at a pin-hole element output beam width less than the feedback element output beam width.
Battery Powered Passive Keyless Entry System For Premise Entry
A passive keyless entry (PKE) system, comprising a DC power source and a base station with a housing that includes a first portion being made of a first material that shields radio frequency (RF) signaling and a second portion being made of a second material that permits RF signaling, is particularly adapted for premise entry and is designed to be powered by common household batteries to unlock a premise door as a user approaches within a prescribed arms-length distance from the premise door. The PKE system further comprises a printed circuit board and a low frequency (LF) emitting antenna coil positioned both perpendicular to the printed circuit board and behind the second material of the housing while having a center axis oriented in a horizontal orientation. The LF emitting antenna coil transmits a LF interrogating signal upon detecting a user within the prescribed arms-length distance from the base station.
A magnetically levitating door is disclosed herein. The door may have a bracket having a magnet that is repelled from a magnet of a track. The magnet field of the bracket and the magnet field of the track may have different widths. The track may be disposed adjacent to a door opening. The bracket may have a guard in slidable engagement with the track to limit lateral movement of the magnet of the bracket disposed above and repelling the magnet of the track to levitate the door off of the track while preventing excessive lateral forces on the guard. The bracket may have at least one guide in slidable engagement with the track to secure the engagement of the bracket to the track and maintain vertical alignment of the bracket to the track.
A magnetically levitating door is disclosed herein. The door may have a bracket having a magnet that is repelled from a magnet of a track. The magnet field of the bracket and the magnet field of the track may have different widths. The track may be disposed adjacent to a door opening. The bracket may have a guard in slidable engagement with the track to limit lateral movement of the magnet of the bracket disposed above and repelling the magnet of the track to levitate the door off of the track while preventing excessive lateral forces on the guard. The bracket may have at least one guide in slidable engagement with the track to secure the engagement of the bracket to the track and maintain vertical alignment of the bracket to the track.
A magnetically levitating door is disclosed herein. The door may have a magnet that is repelled from a magnet of a track. The track may be disposed adjacent to a door opening. The track may have a stabilizing roller to maintain vertical alignment of the magnets used to levitate the door off of the track.
153rd Street Elementary School Gardena CA 1989-1992, Anderson Elementary School Lawndale CA 1992-1995, Rogers Intermediate School Lawndale CA 1995-1997