University of Wisconsin Law School Degree - JD - Juris Doctor - Law Graduated - 1972 University of Wisconsin, Madison Degree - BA - Bachelor of Arts Graduated - 1969
Specialties:
Criminal Defense - 34% Business - 33% Litigation - 33%
Associations:
American Bar Association - Member Dane County Bar Association - Member State Bar of Wisconsin - Member
Michael L. Myrick - Irmo SC, US Heather Brooke - Alexandria VA, US Stephen L. Morgan - Columbia SC, US Megan R. Pearl - Columbia SC, US
Assignee:
Halliburton Energy Services, Inc. - Houston TX
International Classification:
G01J 1/00 G01J 1/04 G01J 5/06 G01J 5/02 G01J 5/12
US Classification:
2503361, 2503381, 25033901, 25033902, 374142
Abstract:
In accordance with certain embodiments of the present disclosure, a method for adjusting the spectral detectivity of a thermal detector is described. The method includes coating the light sensitive portion of a thermal detector with a first material to reduce the response of the detector. The first material is coated with a second material that is thermally thin and has spectral absorption characteristics. The second material is coated with a third material that is thermally thick, whereby the spectral absorbance of the second material as filtered by the third material primarily determines the thermal conversion of the thermal detector.
Multi-Mode Imaging In The Thermal Infrared For Chemical Contrast Enhancement
Michael Myrick - Irmo SC, US Heather Brooke - Alexandria VA, US Megan Baranowski - Columbia SC, US Jessica McCutcheon - Scranton SC, US Stephen Morgan - Columbia SC, US
Assignee:
University of South Carolina - Columbia SC
International Classification:
H04N 5/33 G01J 5/00 G01J 5/02
US Classification:
348164, 2503381, 250351, 348E0509
Abstract:
A system and method for analyzing a sample is disclosed. At least a portion of the sample is illuminated with modulated light from a light source, such as an infrared light source. Infrared energy from the sample is monitored with an infrared detector as the sample is being illuminated with the modulated light. The AC response of the infrared energy is analyzed to determine at least one of emission data or reflection data about the sample. The emission data or the reflection data can be used to enhance chemical contrast between varying substances on the sample.
Detecting Surface Stains Using High Absorbance Spectral Regions In The Mid-Ir
Michael L. Myrick - Columbia SC, US Megan R. Pearl - The Woodlands TX, US Heather Brooke - Hoboken NJ, US Stephen L. Morgan - Columbia SC, US Jessica N. McCutcheon - Scranton SC, US
International Classification:
G01J 3/42
US Classification:
2503418, 2503381
Abstract:
Methods and systems for detecting the presence of a substance on a surface are provided. The method can include directing a modulated light beam (e.g., having a wavelength of about 3 to about 20 μm) from a light source to a beam expander such that the beam expander widens the diameter of the light beam into an expanded beam. The expanded beam can then be directed onto the surface to form an illuminated area. A specular reflection can then be detected from the illuminated area on the surface in each light cycle, and the presence of the substance on the surface can be determined.
Detecting Heat Capacity Changes Due To Surface Inconsistencies Using High Absorbance Spectral Regions In The Mid-Ir
Michael L. Myrick - Columbia SC, US Megan R. Pearl - The Woodlands TX, US Heather Brooke - Hoboken NJ, US Stephen L. Morgan - Columbia SC, US Jessica N. McCutcheon - Scranton SC, US
International Classification:
G01N 21/55
US Classification:
2503418, 2503381
Abstract:
Methods and systems for detecting the presence of an inconsistency in or on a surface are generally provided. The method can include directing a modulated light beam (e.g., having a wavelength of about 3 μm to about 20 μm) from a light source to a mirror. The mirror then directs a reflected light beam onto the surface (e.g., directly onto the surface or indirectly onto the surface via a additional mirror(s)). The mirror is controlled to scan the reflected light beam across the surface. A specular reflection from the surface can then be detected in each light cycle, and the presence of the inconsistency on the surface can be detected.
Reproducible Sample Preparation Method For Quantitative Stain Detection
- Columbia SC, US Brianna Cassidy - Columbia SC, US Katherine Witherspoon - Columbia SC, US Stephanie Dejong - Ripon CA, US Raymond Belliveau - Columbia SC, US Michael Myrick - Columbia SC, US Stephen L. Morgan - Columbia SC, US
International Classification:
D06N 7/00 G01N 33/49 G01N 1/30 B05D 3/00
Abstract:
A stain-barrier is described along with methods of its application to a fabric. The stain barrier reduces variability between samples of different dilution or fabric type so that limits of stain detection can be assigned more accurately and precisely and stain detection techniques can be transparently compared.
Reproducible Sample Preparation Method For Quantitative Stain Detection
- Columbia SC, US Zhenyu Lu - Columbia SC, US Katherine Witherspoon - Columbia SC, US Alena Bensussan - Monroe CT, US Jennifer Martin - Pelion SC, US Stephanie Dejong - Ripon CA, US Michael Myrick - Columbia SC, US Stephen L. Morgan - Columbia SC, US Wayne L. O'Brien - Port Arthur TX, US
International Classification:
G01N 1/30 D06M 15/248
Abstract:
A stain-barrier is described along with methods of its application to a fabric. The stain barrier can be applied to fabric samples and limits the amount of fabric with which deposited liquid is able to interact. This stain barrier reduces unwanted variability between samples of different dilution or fabric type so that limits of stain detection can be assigned more accurately and precisely and stain detection techniques can be transparently compared.
Michael Myrick - Columbia SC, US Wayne O'Brien - Ringgold GA, US Stephen L. Morgan - Columbia SC, US Briana Marie Cassidy - Columbia SC, US Zhenyu Lu - Columbia SC, US
International Classification:
G01N 25/72
US Classification:
374 5
Abstract:
Methods for identifying chemical contrasts on a common surface are generally provided. The presence of a stain on a surface can be detected by applying a testing vapor, such as water, onto the surface and monitoring the surface with an infrared camera that detects wavelengths of about 700 nm to about 1 mm and/or a microbolometer that detects wavelengths of about 7.5 μm to about 14 μm. The surface may be at room temperature or preheated during the detection method.
License Records
Stephen James Morgan
License #:
MT040345T - Expired
Category:
Medicine
Type:
Graduate Medical Trainee
Name / Title
Company / Classification
Phones & Addresses
Mr. Stephen Morgan Partner
Morgan Anderson Phillips LLP Attorneys & Lawyers - Family. Attorneys & Lawyers - Estate Planning
Dr. Morgan graduated from the University of Massachusetts Medical School in 1997. He works in Beverly, MA and 1 other location and specializes in Pediatrics. Dr. Morgan is affiliated with MassGeneral For Children At North Shore Medical Center.
Dr. Morgan graduated from the Michigan State University College of Osteopathic Medicine in 1981. He works in Traverse City, MI and 1 other location and specializes in Urgent Care Medicine. Dr. Morgan is affiliated with Munson Medical Center.
Dr. Morgan graduated from the Oregon Health & Science University School of Medicine in 1999. He works in Sussex, WI and specializes in Family Medicine. Dr. Morgan is affiliated with Oconomowoc Memorial Hospital and Waukesha Memorial Hospital.
Radiology Associates Of Northern Kentucky 375 Thomas More Pkwy STE 209, Fort Mitchell, KY 41017 8593414842 (phone), 8593314319 (fax)
Education:
Medical School Ohio University College of Osteopathic Medicine Graduated: 1992
Languages:
English
Description:
Dr. Morgan graduated from the Ohio University College of Osteopathic Medicine in 1992. He works in Crestview Hills, KY and specializes in Diagnostic Radiology. Dr. Morgan is affiliated with St Elizabeth Healthcare Florence.
Zonana said he helped evaluate Stephen Morgan, who was found not guilty by reason of insanity in the 2009 shooting death of Johanna Justin-Jinich in Middletown, Conn., where she was attending college.
Stephen Morgan, 31, of Marblehead, Mass., appeared Thursday morning in Middletown Superior Court. He said he understood his rights and that he may face 25 to 75 years in prison or a state mental hospital.