*תנאי הקבלה הינם דינמיים ומשתנים מאדם לאדם לכן מומלץ לקבל פרטים נוספים אצל יועצי מידע ורישום
חישוב ממוצע הבגרות כולל בונוס עם ציון מבחן הפסיכומטרי או התיל.
ציון ההתאמה הקובע לקבלה למרכז האקדמי לב הוא 79 ומעלה. למחשבון ציון ההתאמה לחץ כאן
כל תלמיד חדש מתחיל את לימודיו ב"סמסטר אלול" בלימודי קדם של היחידה ללימודי קדם, במתמטיקה ו/או במחשבים ו/או בפיסיקה. לכל תלמיד חדש יצוין במכתב הקבלה באלו קורסים הוא חייב ומתי מתחילים הלימודים
שכר הלימוד במרכז האקדמי לב הוא שכר לימוד אוניברסיטאי מופחת ונקבע כל שנה על פי החלטת המועצה להשכלה גבוהה.
לתשלום זה מתווסף תשלום עבור לימודי אנגלית ותשלום עבור לימודים בבית המדרש או המדרשה
מבחן פוטנציאל שבודק כישורים ותכונות רלוונטיים ללימודים האקדמיים. מבחן זה מוכר כמקביל למבחן הפסיכומטרי עבור קבלה למרכז האקדמי לב, למעט למועמדי העתודה האקדמית ומועמדים לחוג לסיעוד.
המבדקים נמשכים כ-4 שעות ומתייחסים למידת ההתאמה לחוג המבוקש. המבדקים מוצגים באמצעות צג המחשב ואין כל צורך בהתנסות קודמת בהפעלת מחשב על מנת להצליח בהם. מבחן להתנסות עצמית ניתן למצוא באתר תיל אינטרנשיונל. לפרטים נוספים על המבחן ושאלות לדוגמא- לחץ כאן
עליך להגיש את בקשה בכתב למדור מידע ורישום עם הפרטים הבאים:
שם מלא, מס' ת.ז, תאריך וחתימה למשרד מידע ורישום בקמפוס אליו נרשמת
ניתן לבצע שינוי כל עוד החוג פתוח להרשמה. השינוי חייב להתבצע ע"י בקשה בכתב למדור מידע ורישום.
במידה והנך עומד בכל דרישות הקבלה, יישלח מכתב התשובה /קבלה, בעז"ה תוך 10 ימים ממועד קיום הריאיון.
היכנס לדף שאלות נפוצות או צור איתנו קשר 3239*
שעות קבלה: בתיאום מראש
מיקום המשרד: בניין לאו, חדר 223
2003-2006: B.Sc. Applied Physics/Electro-Optics Engineering, Lev Academic Center
Project: Osteoporosis Diagnosis by Digital Image Processing, Digital image processing,
Advisor: Dr. Victor Neeman
2006: Teacher's Certificate, Mathematics & Physics, Lev Academic Center
2007-2010: M.Sc. Applied Physics, The Hebrew University of Jerusalem
Thesis: Voltage Controlled Deposition of Nano-particles using Atomic Force
Microscopy, Nanotechnology, Advisor: Prof. Aaron Lewis
2011-2016: Ph.D. Applied Physics, The Hebrew University of Jerusalem
Thesis: Deposition and Characterization of Active Nanostructures Using Fountain Pen
Nanolithography, Nanotechnology, Advisor: Prof. Aaron Lewis
2007-2016: Lev Academic Center, External Lecturer
2008-now: The Technological and Engineering Education Center, External
Lecturer
2011: The Hebrew University of Jerusalem, Research Assistant
2016-now: Lev Academic Center, Lecturer
2014: Physicist, part of R&D team, Nanonics Imaging Ltd.
2003-2005: Scholarships for Excellence in Academic Studies, Lev Academic Center
2006: Education Foundation Award, for Excellence in teaching studies, Lev Academic Center
2006: Wolf Foundation Award, for Excellence in academic studies , Lev Academic Center
2006: The Donald Award for excellence, Lev Academic Center
2007: The Cecille Kaplan Prize for Outstanding Graduates, Lev Academic Center
2007-2008: Scholarships for Excellence in Academic Studies, The Hebrew University of Jerusalem
a. Summary of Past Research and Development Activities
• Developing a new methodology of nanolithography called Fountain Pen Nanolithography (FPN).This technique uses a simple bent glass nanopipette as a nano-pen with atomic force feedback. The simplicity of FPN can be used for flexible, fast and directed deposition of a variety of inks, from single molecules to particles that can range to hundreds of nanometer in size. The developing and optimization of the method was done with collaboration of Nanonics Ltd.
• Part of the NanoSpec group under a joint grant of NanoSci-E+ (Prof. Eleanor E.B. Campbell, University of Edinburgh, UK, Prof. Stephanie Reich, Freie Universität Berlin, Germany, Prof. Stefan Maier, Imperial College, UK & Prof. Aaron Lewis, Hebrew University of Jerusalem, Israel). This project involves a lot of issues from the nano-world: Surface-Plasmons, Nano-antennas, nano deposition of carbon nanotubes and nano-particles, electrical and Raman measurements on carbon nanotubes, SERS, TERS, AFM and NSOM.
• Printing carbon nanotubes at the nanoscale with the Fountain Pen Nanolithography (FPN) method. (Collaboration with Prof. Shlomo Magdassi group from the Hebrew University)
• Developing a sensitive near field microscopy tip for controlled optical and scanned probe imaging of living cell membranes voltage. (Collaboration with Prof. Aaron Lewis, Nanonics company)
• Printing metallic lines at the nanoscale and the microscale with the Fountain Pen Nanolithography (FPN) method. (Collaboration with Prof. Aaron Lewis, Nanonics company and Prof. Shlomo Magdassi group from the Hebrew University)
b. Summary of Current Research and Development Activities
• Developing an algorithm for automatic diagnosis of abnormal drainage of the upper urinary tract of the early phase fluoroscopic images in retrograde urography. In collaboration with Leichter research team and Prof. M. Duvdevani at Urology, Hadassah Medical center.
• Developing an algorithm for automatic diagnosis of external structures in panoramic radiographs. In collaboration with Leichter research team and Dr. C. Nadler, Urumaxilophacial Imaging, Department of Oral Medicine, Hadassah University Hospital.
• Developing a method for diagnosing osteoporosis by processing proximal femur radiographs. In collaboration with Leichter research team and Dept. of Orthopedic Surgery, Hadassah University Hospital.
c. Future Directions for Research and Development.
• Developing a method for automatic diagnosis of abnormal drainage of the upper urinary tract by quantitative processing of CT images. In collaboration with Leichter research team, Prof. M. Duvdevani at Urology, Hadassah Medical center and Prof. J. Sosna, director of X-ray - imaging system, Hadassah Medical Center.
• Computerized image analysis of CBCT for the assessment of maxillofacial pathologies. In collaboration with Leichter research team and Dr. C. Nadler, Urumaxilophacial Imaging, Department of Oral Medicine, Hadassah University Hospital.
Peer-Reviewed Papers in Refereed Journals
1. K. Strain, T. Yeshua, A. Gromov, O. Nerushev, A. Lewis, and .E. B. Campbell, "Direct Deposition of Aligned Single Walled Carbon Nanotubes by Fountain Pen Nanolithography", Mater. Express 1, 279-284 (2011). IF:2.30, Rank:Q2, 3 citations.
2. T. Yeshua, S. Weinberger, H. Taha, A. Lewis, M. Layani, S. Magdassi, C. Lehmann, S. Reich, C. Sukenik, S. Kokotov and R. Dekhter, "The evolution of fountain pen nanolithography: Controlled multiprobe delivery of liquids and gases". Microscopy and Analysis 28(3), 11-15 (2014). IF: 1.88, Rank:Q3, 2 citations.
3. A. Lewis, D. Lev, D. Sebag, P. Hamra, H. Levy, Y. Bernstein, A. Brahami, N. Tal, Omri Goldstein and T. Yeshua, "The optical near-field: super-resolution imaging with structural and phase correlation", Nanophotonics 3, 3-18 (2014). IF: 5.69, Rank:Q1, 5 citations.
4. T. Yeshua, C. Lehmann, U. Hübner, S. Azoubel, S. Magdassi, E. E. B. Campbell, S. Reich and A. Lewis, "Nanodrawing of Aligned Single Carbon Nanotubes with a Nanopen". Nano Letters 16(3), 1517–1522 (2016). IF:13.59, Rank:Q1, 13 citations.
5. A. Brahami, H. Levy, E. Zlotkin-Rivkin, N. Melamed-Book, N. Tal, D. Lev, T. Yeshua, O. Fedosyeyev, B. Aroeti and A. Lewis, "Live cell near-field optical imaging and voltage sensing with ultrasensitive force control". Optics Express, 25(11), 12131-12143 (2017). IF:3.31, Rank:Q1. 1 citation.
6. T. Yeshua, M. Layani, U. Hübner, S. Magdassi and A. Lewis, "Micrometer to 15-Nanometer Printing of Metallic Inks with Fountain Pen Nanolithography". Small, 14(1), 1702324 (2018) (Front Cover). IF 8.3, Rank:Q1, 10 citations.
7. T. Yeshua, Y. Mandelbaum, R. Abdalla-Aslan, C. Nadler, L. Cohen, L. Zemour, D. Kabla, O. Gleisner and I. Leichter, "Automatic Detection and Classification of Dental Restorations in Panoramic Radiographs", Issues in Informing Science and Information Technology, 16, 221-234 (2019) Rank:Q3, 1 citation.
8. R. Abdalla-Aslan, T. Yeshua, D. Kabla, I. Leichter and C. Nadler, "An artificial intelligence system using machine-learning for automatic detection and classification of dental restorations in panoramic radiography", Oral Surgery, Oral Medicine, Oral Pathology and Oral Radiology, https://doi.org/10.1016/j.oooo.2020.05.012 (2020), IF: 1.69, Rank:Q1
Lectures and posters at international conferences:
1. A. Lewis, T. Yeshua, M. Palhan, Y. Lovsky and H. Taha, "Atomic force controlled capillary electrophoresis", Lecture, Americal Physical Society Meeting, Portland, Oregon (March 2010)
2. T. Yeshua, M. Palchan, H. Taha and A. Lewis, "Control of Nanoparticle Deposition with Atomic Force Based Electrophoresis", Lecture, Material Research Society meeting, Boston, Massachusetts (November 2010)
3. A. Lewis, T. Yeshua, M. Palhan, Y. Lovsky and H. Taha, "Three Electrode Control of the NanoDeposition of Gold Nanoparticles With Atomic Force Controlled Capillary Electrophoresis", Lecture, Americal Physical Society Meeting, Dallas, Texas (March 2011)
4. K. Strain, T. Yeshua, R. Fernandez-Garcia, S. Heeg, C. Lehmann, S. Reich, S. A. Maier, M. Palchan, A. Lewis, A. Gromov, O. Nerushev, E. Campbell, "Interfacing Carbon Nanotubes with Nanoantennas for Simultaneous Multifunctional Spectroscopy and Electrical Nanocharacterization", NanoSci-ERA Conference, Poster presentation, Dublin, Ireland (June 2011)
5. T. Yeshua, A. Lewis, M. Palhan, "Voltage Controlled Fountain Pen Nanolithography", Israel Vacuum Society Conference, Lecture, Herzliya, Israel (June 2011)
6. A. Lewis, T. Yeshua, Y. Bar-David, R. Dekhter, O. Zinoviev, "Tip Enhanced Raman Scattering & Multiprobe Scanned Probe Imaging & NanoLithography of Carbon Nanotubes & Graphene", Lecture, Metrology Standardization and Industrial Quality of Graphene and Nanotubes Conference, Cambridge, UK (July 2011)
7. K. Strain, C. Lehmann, T. Yeshua, A. Lewis, O. Nerushev and E. Campbell. "AFM Nanomanipulation of Gold Nanoparticles for Plasmonically Enhanced Raman Spectroscopy on Electrically Contacted SWNTs", Lecture, Thirteenth International Conference on the Science and Application of Nanotubes, Brisbane, Australia (June 2012)
8. T. Yeshua, H. Taha ,R. Dekhter ,C. Lehmann, S. Reich and A. Lewis, "MultiProbe Intermittent Mode Fountain Pen NanoLithography of Single Oriented Carbon Nanotubes with On-line Functional Electrical & Raman Characterization", Lecture, Materials Research Society meeting, Boston, Massachusetts (December 2013)
9. D. Yablon, T. Yeshua, C. Lehmann, S. Reich, K. Strain and E. Campbell, "MultiProbe Electrical Measurements of Carbon Nanotubes With On-line Raman Scattering", Lecture, American Physical Society meeting, Denver, Colorado (March 2014)
10. T. Yeshua, D. Lev and Aaron Lewis, "Nanochemical Lithography: New Horizons in Fundamental & Applied Research", Poster presentation, SEEEI Optical Engineering Conference, Jerusalem, Israel (February 2016)
11. A. Lewis, A. Brahami, H. Levy, E. Zlotkin-Rivkin, N. Melamed-Book, N. Tal, D. Lev, T. Yeshua, O. Fedosyeyev and B. Aroeti. "Ultrasensitive Force Controlled Live Cell Optical Imaging and Voltage Sensing". Lecture, Bulletin of the American Physical Society 62, New Orleans, Louisiana (March 2017)
12. T. yeshua, O. Gleisner, V. Neeman, R. Lederman, M. Duvdevani and I. Leichter, "Algebraic processing of sequential fluoroscopy images for quantitative evaluation of partial obstruction of the upper urinary tract". Lecture, 23rd Conference on Applications of Computer Algebra, Jerusalem, Israel (July, 2017)
13. T. Yeshua, M. Layani, R. Dechter, U. Huebner, S. Magdassi and A. Lewis, "Nanoprinting of Metallic Conductive Inks with Fountain Pen Nanolithography", Lecture, Material Research Society meeting, Boston, Massachusetts (November 2017)
14. I. Leichter, V. Neeman, O. Gleisner, J. Patao, T. Yeshua and R. Lederman, “Quantitative Evaluation of Partial Obstruction of the Upper Urinary Tract by Analyzing Sequential Fluoroscopic Images from Antegrade Nephrostograms”, Lecture, RSNA 103rd scientific assembly and annual meeting, Chicago, Illinois (December, 2017)
15. A. Lewis, T. yeshua, R. Dechter, U. Huebner, S. Magdassi, M. Layani “Nanoprinting of Metallic Conductive Inks with Fountain Pen Nanolithography”, Lecture, Bulletin of the American Physical Society 63, Los Angeles, California (March 2018)
16. T. Yeshua, O. Gleisner, C. Nadler, R. Aslan-Abdallah, Y. Mandelbaum, I. Leichter, "Computerized Analysis of Panoramic Images for Automatic Detection and Classification of Dental Reconstructions", Lecture, Israel Radiological Association Annual Meeting, Eilat, Israel (October 2018)
17. T. Yeshua, S. Rebibo, K. Sfez, O. Safran, M. Liebergall and I. Leichter, "A novel machine-learning approach for assessing osteoporotic fracture risk by texture analysis of femoral neck radiographs", Lecture, The 2019 European Congress of Radiology, Vienna, Austria (February, 2019)
18. T. Yeshua, Y. Mandelbaum, R. Abdalla-Aslan, C. Nadler, L. Cohen, L. Zemour, D. Kabla, O. Gleisner and I. Leichter, "Automatic Detection and Classification of Dental Restorations in Panoramic Radiographs", Issues in Informing Science and Information Technology, Lecture, Insite2019 Conference Proceedings, Jerusalem, Israel (July 2019)
19. T. Yeshua, S. Rebibo, K. Jacobson, O. Safran, M. Liebergall and I. Leichter, "An Informative Machine-Learning Tool for Diagnosis of Osteoporosis using Routine Femoral Neck Radiographs", Lecture, Insite2019 Conference Proceedings, Jerusalem, Israel (July 2019). 1 citation.
20. T. Yeshua, R. Abdalla-Aslan, I. Leichter, C. Nadler, "Can Support Vector Machine algorithm be used to automatically map dental restorations in panoramic images?", Lecture - Keynote speaker, 11th International Conference on Dental Science and Advanced Dentistry, Berlin, Germany (August, 2020)
Kallah Instructor for religious and non-religious Brides