With the latest scientific research, this simple guide shows how insulin and inflammation affect your health and what you can to take control. Insulin: It's a scary word for anyone. Levels too high or too low can have grave medical consequences, and the rigorous testing and change in diet it takes to manage it can be daunting. Inflammation: Is this the cause of damage within the body? Worse still, insulin and inflammation have increasingly been found to affect much more than diabetes. Heart disease, cancer, Alzheimer's disease, and strokes have all been found to possibly link back to insulin resistance. The good news? You’ve got armor. While managing your insulin and inflammation levels can seem like impossible work, Dr. Peter Kash, Dr. Linda Friedland, and Dr. Jay Lombard have created an easy to follow guide that not only breaks down how insulin and inflammation affect your health, but also provides the information you need to keep it in check. “Drs. Kash, Friedland and Lombard finally put together the real story of the underlying cause of our epidemic of chronic illness from ADD to Alzheimer's, from depression to heart attacks, from cancer to obesity—it is the insulin flooding through our bodies triggering a deathly cascade. Read this book—it will save your life.”—Mark Hyman, MD, author of the New York Times bestseller, UltraMetabolism
This in-depth textbook with a focus on atom-light interactions prepares students for research in a fast-growing and dynamic field. Intended to accompany the laser-induced revolution in atomic physics, it is a comprehensive text for the emerging era in atomic, molecular and optical science. Utilising an intuitive and physical approach, the text describes two-level atom transitions, including appendices on Ramsey spectroscopy, adiabatic rapid passage and entanglement. With a unique focus on optical interactions, the authors present multi-level atomic transitions with dipole selection rules, and M1/E2 and multiphoton transitions. Conventional structure topics are discussed in some detail, beginning with the hydrogen atom and these are interspersed with material rarely found in textbooks such as intuitive descriptions of quantum defects. The final chapters examine modern applications and include many references to current research literature. The numerous exercises and multiple appendices throughout enable advanced undergraduate and graduate students to balance theory with experiment.
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