Rainer K. Sachs

Q: What Schools Are Affiliated With Rainer K. Sachs

Rainer K. Sachs is affiliated with the following schools: University of California, Berkeley, Syracuse University, Massachusetts Institute of Technology, University of Washington, Harvard University

Rainer K. Sachs's AcademicInfluence.com Rankings

Rainer K. Sachs

Physics

#421

World Rank

#739

Historical Rank

#200

USA Rank

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Physics

Why Is Rainer K. Sachs Influential?

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According to Wikipedia, Rainer Kurt "Ray" Sachs is a German-American mathematical physicist, with interests in general relativistic cosmology and astrophysics, as well as a computational radiation biologist. He is professor emeritus of Mathematics and Physics at the University of California, Berkeley, and adjunct professor at Tufts Medical School.

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Rainer K. Sachs's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

Cancer risks attributable to low doses of ionizing radiation: Assessing what we really know (2003) (1653)
Perturbations of a Cosmological Model and Angular Variations of the Microwave Background (1967) (1420)
Gravitational waves in general relativity VIII. Waves in asymptotically flat space-time (1962) (1401)
General Relativity for Mathematicians (1983) (546)
Gravitational waves in general relativity. VI. The outgoing radiation condition (1961) (525)
SOME SPATIALLY HOMOGENEOUS ANISOTROPIC RELATIVISTIC COSMOLOGICAL MODELS (1966) (524)
Observations in Cosmology (1966) (379)
A random-walk/giant-loop model for interphase chromosomes. (1995) (315)
Evidence for the organization of chromatin in megabase pair-sized loops arranged along a random walk path in the human G0/G1 interphase nucleus (1995) (296)
The Bystander Effect in Radiation Oncogenesis: II. A Quantitative Model (2001) (250)
The link between low-LET dose-response relations and the underlying kinetics of damage production/repair/misrepair. (1997) (246)
Simple ODE models of tumor growth and anti-angiogenic or radiation treatment (2001) (238)
Estimating genomic distance from DNA sequence location in cell nuclei by a random walk model. (1992) (232)
Gravitational waves in general relativity VIII (1962) (219)
Isotropic Solutions of the Einstein‐Liouville Equations (1968) (213)
The linear-quadratic model and most other common radiobiological models result in similar predictions of time-dose relationships. (1998) (205)
Radiation-induced cancer: a modern view. (2012) (187)
Solid tumor risks after high doses of ionizing radiation. (2005) (176)
Velocity‐Dominated Singularities in Irrotational Dust Cosmologies (1972) (173)
Cancer risks after radiation exposure in middle age. (2010) (172)
Review: proximity effects in the production of chromosome aberrations by ionizing radiation. (1997) (163)
Estimating radiation-induced cancer risks at very low doses: rationale for using a linear no-threshold approach (2006) (159)
Biological Effects of Proton Radiation: What We Know and Don't Know (2013) (137)
On the Characteristic Initial Value Problem in Gravitational Theory (1962) (135)
Individualized estimates of second cancer risks after contemporary radiation therapy for Hodgkin lymphoma (2007) (133)
A comparison of mantle versus involved-field radiotherapy for Hodgkin's lymphoma: reduction in normal tissue dose and second cancer risk (2007) (131)
A convenient extension of the linear-quadratic model to include redistribution and reoxygenation. (1995) (130)
Republication of: Perturbations of a cosmological model and angular variations of the microwave background (By R.K. Sachs and A.M. Wolfe) (2007) (126)
Cancer drug resistance: the central role of the karyotype. (2007) (105)
Chromosomes are predominantly located randomly with respect to each other in interphase human cells (2002) (103)
Chromosomal "fingerprints" of prior exposure to densely ionizing radiation. (1994) (103)
Radiation-induced chromosome aberrations: insights gained from biophysical modeling. (2002) (98)
Causally continuous spacetimes (1974) (96)
A new view of radiation-induced cancer: integrating short- and long-term processes. Part II: second cancer risk estimation (2009) (93)
Studies of metaphase and interphase chromosomes using fluorescence in situ hybridization. (1993) (88)
A theorem on Petrov types (2009) (81)
Using three-color chromosome painting to test chromosome aberration models. (1993) (80)
A new view of radiation-induced cancer: integrating short- and long-term processes. Part I: Approach (2009) (75)
Do low dose-rate bystander effects influence domestic radon risks? (2002) (71)
Causal boundaries for general relativistic space‐times (1974) (68)
Radiation-induced leukemia at doses relevant to radiation therapy: modeling mechanisms and estimating risks. (2006) (62)
Cancer-causing karyotypes: chromosomal equilibria between destabilizing aneuploidy and stabilizing selection for oncogenic function. (2009) (61)
Defining AML and MDS second cancer risk dynamics after diagnoses of first cancers treated or not with radiation (2016) (60)
Chromosomal alterations cause the high rates and wide ranges of drug resistance in cancer cells. (2005) (60)
Radiation-produced chromosome aberrations: colourful clues. (2000) (59)
Optimizing the time course of brachytherapy and other accelerated radiotherapeutic protocols. (1994) (58)
Biophysical Models of Radiation Bystander Effects: 1. Spatial Effects in Three-Dimensional Tissues (2007) (56)
DNA damage caused by ionizing radiation. (1992) (54)
Polymer models for interphase chromosomes. (1993) (52)
Intra-arm and interarm chromosome intrachanges: tools for probing the geometry and dynamics of chromatin. (1997) (52)
Republication of: A theorem on Petrov types (2009) (52)
The ratio of dicentrics to centric rings produced in human lymphocytes by acute low-LET radiation. (1992) (49)
General relativity and cosmology (1977) (49)
Joint oxygen‐glucose deprivation as the cause of necrosis in a tumor analog (1988) (49)
Second cancers after fractionated radiotherapy: stochastic population dynamics effects. (2007) (48)
The mechanistic basis of the linear-quadratic formalism. (1998) (47)
Ratios of radiation-produced chromosome aberrations as indicators of large-scale DNA geometry during interphase. (1993) (43)
Theoretical predictions on the equality of radiation-produced dicentrics and translocations detected by chromosome painting. (1996) (41)
Potential reduced late effects for pulsed brachytherapy compared with conventional LDR. (1995) (39)
DOMESTIC RADON RISKS MAY BE DOMINATED BY BYSTANDER EFFECTS—BUT THE RISKS ARE UNLIKELY TO BE GREATER THAN WE THOUGHT (2003) (39)
Clusters of DNA Double-Strand Breaks Induced by Different Doses of Nitrogen Ions for Various LETs: Experimental Measurements and Theoretical Analyses (2006) (39)
Clustering of radiation-produced breaks along chromosomes: modelling the effects on chromosome aberrations. (1999) (38)
Locations of radiation-produced DNA double strand breaks along chromosomes: a stochastic cluster process formalism. (1999) (36)
Chromosome spatial clustering inferred from radiogenic aberrations (2004) (35)
Triggering-Response Model for Radiation-Induced Bystander Effects (2009) (33)
Propagation laws for null and type III gravitational waves (1960) (33)
Sex differences in the incidence of chronic myeloid leukemia (2014) (33)
Influence of time-dependent stochastic heterogeneity on the radiation response of a cell population. (1994) (32)
Random breakage and reunion chromosome aberration formation model; an interaction-distance version based on chromatin geometry. (2000) (32)
Chromosome aberrations produced by radiation: the relationship between excess acentric fragments and dicentrics. (1995) (31)
A new view of radiation-induced cancer. (2011) (31)
Effect of LET on chromosomal aberration yields. I. Do long-lived, exchange-prone double strand breaks play a role? (1993) (30)
Reducing second breast cancers: a potential role for prophylactic mammary irradiation. (2007) (30)
A polymer, random walk model for the size-distribution of large DNA fragments after high linear energy transfer radiation (2000) (29)
A formalism for analysing large-scale clustering of radiation-induced breaks along chromosomes. (1998) (29)
Modeling Intercellular Interactions during Carcinogenesis (2005) (28)
Misrejoining of double-strand breaks after X irradiation: relating moderate to very high doses by a Markov model. (1998) (28)
Interpretation of inverse dose-rate effects for mutagenesis by sparsely ionizing radiation. (1996) (28)
Proximity effects for chromosome aberrations measured by FISH. (1996) (27)
Underprediction of visibly complex chromosome aberrations by a recombinational-repair ('one-hit') model. (2000) (27)
Scaling Human Cancer Risks from Low LET to High LET when Dose-Effect Relationships are Complex (2017) (27)
Biological effects of proton radiation: an update. (2015) (25)
Computer simulation of data on chromosome aberrations produced by X rays or alpha particles and detected by fluorescence in situ hybridization. (1997) (25)
Quantitative modeling of chronic myeloid leukemia: insights from radiobiology. (2012) (25)
Biologically based risk estimation for radiation-induced CML (2001) (24)
Republication of: Contributions to the theory of pure gravitational radiation. Exact solutions of the field equations of the general theory of relativity II (2013) (23)
Recent data obtained by pulsed-field gel electrophoresis suggest two types of double-strand breaks. (1998) (23)
Quantitative analysis of radiation-induced chromosome aberrations (2004) (22)
We forget at our peril the lessons built into the α/β model. (2012) (21)
Analysis of α‐particle induced chromosome aberrations in human lymphocytes, using pan‐centromeric and pan‐telomeric probes (2004) (21)
Computer analysis of mFISH chromosome aberration data uncovers an excess of very complicated metaphases (2002) (20)
Incorporating dose-rate effects in Markov radiation cell survival models. (1990) (19)
Extrapolation of the DNA Fragment-Size Distribution after High-Dose Irradiation to Predict Effects at Low Doses (2001) (18)
Polymer chromosome models and Monte Carlo simulations of radiation breaking DNA (1999) (18)
Stochastic Population Dynamic Effects for Lung Cancer Progression (2009) (17)
Dose timing in tumor radiotherapy: considerations of cell number stochasticity. (1996) (17)
Centric rings, acentric rings and excess acentric fragments based on a random-walk interphase chromosome model. (1997) (17)
Cosmic iron whiskers: their origin, length distribution and astrophysical consequences (1997) (17)
THE QUASI-STEADY STATE COSMOLOGY: ANALYTICAL SOLUTIONS OF FIELD EQUATIONS AND THEIR RELATIONSHIP TO OBSERVATIONS (1996) (16)
Age and Space Irradiation Modulate Tumor Progression: Implications for Carcinogenesis Risk (2013) (16)
Comparing DNA Damage-Processing Pathways by Computer Analysis of Chromosome Painting Data (2004) (16)
Reaction kinetics for the development of radiation-induced chromosome aberrations. (1991) (15)
Why is there so much therapy-related AML and MDS and so little therapy-related CML? (2014) (15)
Simulating galactic cosmic ray effects: Synergy modeling of murine tumor prevalence after exposure to two one-ion beams in rapid sequence. (2020) (15)
Repopulation of interacting tumor cells during fractionated radiotherapy: stochastic modeling of the tumor control probability. (2013) (15)
Radiation-induced total-deletion mutations in the human hprt gene: a biophysical model based on random walk interphase chromatin geometry. (1998) (15)
Large-Mutation Spectra Induced at Hemizygous Loci by Low-LET Radiation: Evidence for Intrachromosomal Proximity Effects (2001) (15)
Using Graph Theory to Describe and Model Chromosome Aberrations (2002) (14)
Space‐times with a future projective infinity (1973) (14)
Ionizing radiation damage to cells: effects of cell cycle redistribution. (1995) (14)
Monte Carlo predictions of DNA fragment-size distributions for large sizes after HZE particle irradiation. (2001) (14)
Radiation breakage of DNA: a model based on random-walk chromatin structure (2001) (14)
A multicellular basis for the origination of blast crisis in chronic myeloid leukemia. (2011) (14)
Ionizing radiation exposures in treatments of solid neoplasms are not associated with subsequent increased risks of chronic lymphocytic leukemia. (2016) (13)
Mixed Beam Murine Harderian Gland Tumorigenesis: Predicted Dose-Effect Relationships if neither Synergism nor Antagonism Occurs (2016) (13)
The Balance Between Initiation and Promotion in Radiation-Induced Murine Carcinogenesis (2010) (13)
The Risk of Chronic Myeloid Leukemia: Can the Dose–Response Curve be U-Shaped? (2002) (12)
Comments on "Comment on the ratio of chromosome-type dicentric interchanges to centric rings for track-clustered compared with random breaks" by Savage and Papworth (Radiat. Res. 146, 236-240, 1996) (1996) (12)
Synergy Theory in Radiobiology (2017) (12)
3H-misonidazole labeling and viability of hypoxic cells in the sandwich system, an in vitro tumor analogue. (1989) (12)
The Production of Vorticity in an Expanding, Self-Gravitating Fluid (1973) (12)
Chromosome aberrations produced by ionizing radiation: Monte Carlo simulations and chromosome painting data (1995) (11)
Synergy theory for murine Harderian gland tumours after irradiation by mixtures of high-energy ionized atomic nuclei (2019) (11)
Spacetimeb-boundaries (1973) (11)
Dose-rate dependent stochastic effects in radiation cell-survival models (1990) (10)
Track structure, chromosome geometry and chromosome aberrations. (1994) (10)
Modeling progression in radiation-induced lung adenocarcinomas (2010) (10)
Response to "Comments on 'Direct Biological Evidence for a Significant Neutron Dose to Survivors of the Hiroshima Atomic Bomb'" by E. Schmid and M. Bauchinger (1996) (9)
Kinetic Theory and Cosmology (1971) (9)
On target cell numbers in radiation-induced H4-RET mediated papillary thyroid cancer (2001) (9)
Full-color painting reveals an excess of radiation-induced dicentrics involving homologous chromosomes (2005) (9)
Modelling the formation of polycentric chromosome aberrations. (1992) (9)
Republication of: Observations in cosmology (2011) (8)
Scalar Time Functions: Differentiability (1976) (8)
Comparison of 3H-misonidazole binding between CHO and 9L cells using the sandwich system. (1989) (8)
A Robust Procedure for Removing Background Damage in Assays of Radiation-Induced DNA Fragment Distributions (2006) (7)
SCHIP: statistics for chromosome interphase positioning based on interchange data (2005) (7)
Erratum to: A new view of radiation-induced cancer: integrating short- and long-term processes. Parts I and II (2011) (6)
Size distributions of misrejoining DNA fragments in irradiated cells. (1998) (6)
Matter symmetries in general relativistic kinetic theory (1973) (6)
A more robust biologically based ranking criterion for treatment plans. (1999) (5)
Detection of an intrinsic marker in hypoxic cells. (1989) (5)
Electromagnetism and matter (1977) (5)
Reducing the hypoxic fraction of a tumour model by growth in low glucose. (1989) (5)
A random walk model for interphase chromosomes and the relationship between centric rings, acentric rings and excess acentric fragments produced by low-LET radiation. (1997) (5)
DNA damage in non-proliferating cells subjected to ionizing irradiation at high or low dose rates (1993) (5)
A Rapid-Mutation Approximation for Cell Population Dynamics (2010) (5)
Protraction effects in radiation studies: basic biophysics. (2000) (4)
Frequency Dependence of the ac Resistance of Thin Semiconducting Films (1957) (4)
A two-backbone polymer model for interphase chromosome geometry. (1997) (4)
Quantitative modeling of carcinogenesis induced by single beams or mixtures of space radiations using targeted and non-targeted effects (2021) (4)
Radiotherapy-Induced Carcinogenesis and Leukemogenesis: Mechanisms and Quantitative Modeling (2014) (3)
Generalised Microdosimetric Calculations of Cell-to-Cell Variance (1994) (3)
Do low dose-rate bystander e V ects in uence domestic radon risks ? (2002) (3)
A Lemma on the Einstein-Liouville Equations (1970) (3)
Using 3-color chromosome painting to decide between chromosome aberration models (1993) (3)
Hypo-fractionated boost in locally advanced non-small cell lung cancer: temporal distribution of boost fractions (2018) (3)
Centric rings, acentric rings and excess acentric fragments based on a random walk interphase model, pp.142. (1997) (2)
Interpreting Chromosome Aberration Spectra (2007) (2)
The Einstein field equation (1977) (2)
CP Violation in K^{0} Decays (1964) (2)
Stochastic Process Pharmacodynamics: Dose Timing in Neonatal Gentamicin Therapy as an Example (2015) (2)
Subtraction of background damage in PFGE experiments on DNA fragment-size distributions (2007) (1)
Commentary on "Simulating galactic cosmic ray effects: Synergy modeling of murine tumor prevalence after exposure to two one-ion beams in rapid sequence". (2020) (1)
Radiation Damage to a Dynamic Cell Population (1)
A two-backbone polymer model for interphase chromosome geometry (1997) (1)
Some memories of Juergen (2009) (0)
Contents Vol. 104, 2004 (2004) (0)
22 Estimated reduction in secondary breast and lung cancer risk with involved-field radiation therapy for mediastinal hodgkin lymphoma: Comparison with mantle fields (2006) (0)
Synergy theory for murine Harderian gland tumours after irradiation by mixtures of high-energy ionized atomic nuclei (2019) (0)
Theory of Time Keeping in Space (1962) (0)
LEMMA ON VACUUM GRAVITATIONAL FIELDS THAT PERMIT A HYPERSURFACE-ORTHOGONAL KILLING VECTOR. (1967) (0)
dicentrics and translocations detected by chromosome painting (1996) (0)
Etiology and treatment of hematological neoplasms: stochastic mathematical models. (2014) (0)
Republication of: Contributions to the theory of pure gravitational radiation. Exact solutions of the field equations of the general theory of relativity II (2013) (0)
Integrated Systems and Technologies : Mathematical Oncology A Multicellular Basis for the Origination of Blast Crisis in Chronic Myeloid Leukemia (2011) (0)
Estimating the Energetic State of Malignant Cells from RNA Transcription and Protein Interaction Network Data (2014) (0)
Optional exercises: relativity (1977) (0)
Modeling low and high LET FISH data on simple and complex chromosome aberrations (1997) (0)
P11 03 MP – REACTION KINETICS FOR THE TIME DEVELOPMENT OF RADIATION-INDUCED CHROMOSOME ABERRATIONS (1991) (0)
P39 02 TP – CONSIDERATIONS IN THE REDUCTION OF PHENOTYPIC VARIATION IN TUMORS (1991) (0)
Optional exercises: Newtonian analogues (1977) (0)
Estimating Therapy-Related Myeloid Neoplasm Risks in the US (2014) (0)
2526 : Predicted Reduction in Secondary Breast and Lung Cancer Risk With Involved-Field Radiation Therapy Vs. Mantle Fields for Mediastinal Hodgkin Lymphoma (2006) (0)
DNA sequence mapping in interphase and metaphase chromosomes by fluorescence in situ hybridization (1992) (0)
Sex differences in the incidence of chronic myeloid leukemia (2013) (0)
Exact solutions the field equations in the quasi-steady state cosmological model and relation to observations (2015) (0)
Nonlinear analysis of interior diameter turning experiments (1997) (0)
Review: Aldo Bressan, Relativistic theories of materials (1980) (0)
Fluorescence in situ hybridization to metaphase and interphase chromosomes (1993) (0)
P02 17 SP – RADIATION INDUCED CHROMOSOME ABERRATIONS AND INTERPHASE CHROMOSOME TOPOGRAPHY (1991) (0)

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What Schools Are Affiliated With Rainer K. Sachs?

Rainer K. Sachs is affiliated with the following schools: