John A. Pearce
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View article: Enhancing heating uniformity of radio frequency additive manufacturing via functional grading
Enhancing heating uniformity of radio frequency additive manufacturing via functional grading Open
View article: Mathematical Models of Thermal Damage and Cell Death
Mathematical Models of Thermal Damage and Cell Death Open
The use of thermal energy to treat tumors, traceable to the middle 1800s, requires some form of quantitative assessment or prediction of likely effectiveness. Since the late 1970s, the most often-used assessment method has been based on th…
View article: Improving the Geometric Accuracy of Radio Frequency Additive Manufacturing Through Functional Grading
Improving the Geometric Accuracy of Radio Frequency Additive Manufacturing Through Functional Grading Open
View article: In Class Demonstrations To Make Electrical Circuits Easier To Understand
In Class Demonstrations To Make Electrical Circuits Easier To Understand Open
NOTE: The first page of text has been automatically extracted and included below in lieu of an abstract Session 1793 In-Class Demonstrations to Make Electrical Circuits Easier to Understand John A. Pearce, Department of Electrical and Comp…
View article: Therapeutic Systems and Technologies: State-of-the-Art Applications, Opportunities, and Challenges
Therapeutic Systems and Technologies: State-of-the-Art Applications, Opportunities, and Challenges Open
In this review, we present current state-of-the-art developments and challenges in the areas of thermal therapy, ultrasound tomography, image-guided therapies, ocular drug delivery, and robotic devices in neurorehabilitation. Additionally,…
View article: Numerical Model Study of In Vivo Magnetic Nanoparticle Tumor Heating
Numerical Model Study of In Vivo Magnetic Nanoparticle Tumor Heating Open
We show and believe that these assessment methods are more accurate than a single assessment figure of merit based only on the comparison of thermal histories, such as the CEM method.